Sun Aug 1 16:54:52 EDT 2004 notes on v1_4 from job submitted earlier today: logfile is ../log/standard.bunch.of.jobs.detector.21.dat.10.010804.1400.log i remade the fastmc.exe executable while the standard bunch of jobs was running. doesn't seem to have caused any ill effects. running jobs were ke3g 14 kp3 15 kp2 15 Andries wants to use 3 MeV threshold for pv. source/setupanal.f - modified "lower PV threshold to 3 MeV" source/bookanal.f - modified "add kp2 hists" source/fillanal.f - modified "fill kp2 hists" test Log file /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.kpnn.kp2.kcp3.aspect1.bryman.010804.2055.log make some unskimmed kp2: % run.fastmc.script kp2 2 10000 9999 0 4 1 detector.21.dat default.decay.dat 1.1 0 & Log file /e787u/djaffe/KOPIO/fastmc/scripts/../locallog/kp2.9999.41.010804.2059.log make prelim version of list with currently available files: % grep rzn ../log/standard.bunch.of.jobs.detector.21.dat.10.010804.1400.log | grep -v kp2.21021.41.rzn.ntskim | awk '{print $3}' | sed -e s/local// | sort -r > b. % cp aspect1.bryman.list a. % cat a. b. | sort -r | less % cat a. b. | sort -r > aspect1.bryman.list another test: % grep kp2 kpnn.kp2.kcp3.aspect1.bryman.list | head -1 > kp2.aspect1.bryman.list % analysis.script kp2.aspect1.bryman.list ../geometry/detector.21.dat & Log file /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.kp2.aspect1.bryman.010804.2122.log % analysis.script aspect1.bryman.list ../geometry/detector.21.dat& Log file /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.aspect1.bryman.010804.2142.log *********************************** Mon Aug 2 10:38:50 EDT 2004 study of kp2, kpnn weighted hists shows that there is <2% of kpnn acceptance for E*<180 MeV and <0.1% of kpnn acceptance for E*>290 MeV (~3sigma above kpnn endpoint) plots of |Ymiss(PR)| vs |Pmiss| suggest cut |Ymiss(PR)|>5cm OR |Pmiss|<800 MeV/c to suppress kp2-even bkgd with large weights due to high Eg (~1000MeV) in catcher and low Eg (~10MeV) in decay volume. I will add these two cuts to Andries's contour cut. source/select_signal.f - modified "add E*, Ymiss, Pmiss cuts to AvdS cuts" latest standard bunch of jobs completed. update aspect1.bryman.list test % analysis.script kp2.aspect1.bryman.list ../geometry/detector.21.dat & Log file /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.kp2.aspect1.bryman.020804.1120.log >>>>>>>>>>>>>>>>>>> Need to remove PV boost from e+ ineffy when >>>>>>>>>>>>>>>>>>> treating e+ annihilation that produces ke3g 'signal' with new cuts, kp2 bkgd = 61.12 +- 5.787 events (using single kp2 file) source/gettrkweight.f - modified "disable PVboost for annih e+ from ke3g" source/getcandwt.f - modified "disable PVboost for annih e+ from ke3g" test (1kpnn, 5kp2, 1ke3g files) % analysis.script sample.aspect1.bryman.list ../geometry/detector.21.dat & Log file /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.sample.aspect1.bryman.020804.1301.log Results: Mode Generated Effy(wt) N/N(Kpnn) Nev(mode) dNeV(mode) Who kpnn 0.1000E+06 0.7635E-03 1.000 29.11 0.8239 MZ kpnn 0.1000E+06 0.3264E-02 1.000 124.4 1.642 AvdS kpnn 0.1000E+06 0.2566E-02 1.000 97.83 1.504 AK basic kpnn 0.1000E+06 0.1666E-02 1.000 63.53 1.211 AK loose kpnn 0.1000E+06 0.1480E-02 1.000 56.43 1.142 AK lominal kpnn 0.1000E+06 0.9944E-03 1.000 37.91 0.9351 AK tight kpnn 0.1000E+06 0.6668E-03 1.000 25.42 0.7659 AK tighter kpnn 0.1000E+06 0.5827E-03 1.000 22.22 0.7167 AK tightest *kp2 0.1000E+07 0.1419E-11 0.5741E-01 1.671 0.2435 MZ *kp2 0.1000E+07 0.7472E-10 0.7074 88.01 13.53 AvdS *kp2 0.1000E+07 0.7893E-10 0.9503 92.97 15.83 AK basic *kp2 0.1000E+07 0.2855E-10 0.5294 33.63 10.45 AK loose *kp2 0.1000E+07 0.1812E-10 0.3781 21.34 9.543 AK lominal *kp2 0.1000E+07 0.3855E-11 0.1198 4.541 0.7991 AK tight *kp2 0.1000E+07 0.1040E-11 0.4820E-01 1.225 0.2756 AK tighter *kp2 0.1000E+07 0.8845E-12 0.4690E-01 1.042 0.2736 AK tightest *ke3g 0.3000E+06 0.3424E-13 0.5411E-02 0.1575 0.1885E-01 MZ *ke3g 0.3000E+06 0.1727E-12 0.6385E-02 0.7944 0.5626E-01 AvdS *ke3g 0.3000E+06 0.2093E-12 0.9840E-02 0.9627 0.5986E-01 AK basic *ke3g 0.3000E+06 0.9943E-13 0.7200E-02 0.4574 0.4605E-01 AK loose *ke3g 0.3000E+06 0.6913E-13 0.5635E-02 0.3180 0.2836E-01 AK lominal *ke3g 0.3000E+06 0.4701E-13 0.5705E-02 0.2163 0.2256E-01 AK tight *ke3g 0.3000E+06 0.3299E-13 0.5970E-02 0.1518 0.1830E-01 AK tighter *ke3g 0.3000E+06 0.2869E-13 0.5940E-02 0.1320 0.1723E-01 AK tightest Key N(Kpnn)/B d(S/B) Nev dNeV bkgd 15.92 2.173 1.829 0.2442 MZ bkgd 1.401 0.2142 88.81 13.53 AvdS bkgd 1.041 0.1762 93.94 15.83 AK basic bkgd 1.864 0.5726 34.09 10.45 AK loose bkgd 2.606 1.149 21.66 9.543 AK lominal bkgd 7.969 1.353 4.757 0.7994 AK tight bkgd 18.46 3.743 1.377 0.2762 AK tighter bkgd 18.92 4.461 1.174 0.2741 AK tightest Note that S/B for AvdS is not that much different frm AK basic. S = 124.4+-1.6 source/anal.f - modified "reduce hiwtdump for kp2" analysis.script kp2.aspect1.bryman.list ../geometry/detector.21.dat & Log file /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.kp2.aspect1.bryman.020804.1544.log add a few more hists % grep kp2 aspect1.bryman.list | head -3 | tail -1 > kp2.aspect1.bryman.list % analysis.script kp2.aspect1.bryman.list ../geometry/detector.21.dat & Log file /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.kp2.aspect1.bryman.020804.1614.log big job: % analysis.script aspect1.bryman.list ../geometry/detector.21.dat & /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.aspect1.bryman.020804.1629.log ******************************** Tue Aug 3 08:31:03 EDT 2004 damn it, aspect1.bryman.list has multiple entries for same file! remake and re-run % analysis.script aspect1.bryman.list ../geometry/detector.21.dat & Log file /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.aspect1.bryman.030804.1007.log there were 15 high weight kp2 (>2e-5) from /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.aspect1.bryman.020804.1629.log 14 with 1g in US hole. 197.le.Emiss.le.325 MeV, 10odd, 4even 1 with 1g in catcher, Emiss=792MeV. just below cut |Pmiss|>800 MeV/c. work on fit without Y beam constraint. in scripts/ % cp control.dat control.dat.remove.ybeam.constraint 10k kpnn events % simple.run.fastmc.script control.dat.remove.ybeam.constraint detector.21.dat & [3] 25596 bnlku24_djaffe[424]% NOTE EXECUTABLE exe/fastmc.exe NOTE EXECUTABLE /e787u/djaffe/KOPIO/fastmc/scripts/../geometry/detector.21.dat control.dat.remove.ybeam.constraint exe/fastmc.exe Logfile name is /e787u/djaffe/KOPIO/fastmc/scripts/../log/fastmc.control.dat.remove.ybeam.constraint.detector.21.dat.030804.1127.log 2d job with beam constraint: % simple.run.fastmc.script control.dat.remove.ybeam.constraint detector.21.dat & [3] 25619 bnlku24_djaffe[427]% NOTE EXECUTABLE exe/fastmc.exe NOTE EXECUTABLE /e787u/djaffe/KOPIO/fastmc/scripts/../geometry/detector.21.dat control.dat.remove.ybeam.constraint exe/fastmc.exe Logfile name is /e787u/djaffe/KOPIO/fastmc/scripts/../log/fastmc.control.dat.remove.ybeam.constraint.detector.21.dat.030804.1132.log /u1/djaffe/kopio/fastmc/ntuples/kpnn.with.ybeam.constraint.rzn nnpi0 events at y=50,z=1215 with beam constraint Logfile name is /e787u/djaffe/KOPIO/fastmc/scripts/../log/fastmc.control.dat.remove.ybeam.constraint.detector.21.dat.030804.1244.log /u1/djaffe/kopio/fastmc/ntuples/nnpi0.y50.z1215.with.ybeam.constraint.rzn nnpi0 events at y=50,z=1215 without beam constraint /e787u/djaffe/KOPIO/fastmc/scripts/../log/fastmc.control.dat.remove.ybeam.constraint.detector.21.dat.030804.1245.log /u1/djaffe/kopio/fastmc/ntuples/nnpi0.y50.z1215.without.ybeam.constraint.rzn need bigger samples, 100K nnpi0: Logfile name is /e787u/djaffe/KOPIO/fastmc/scripts/../log/fastmc.control.dat.remove.ybeam.constraint.detector.21.dat.030804.1300.log Logfile name is /e787u/djaffe/KOPIO/fastmc/scripts/../log/fastmc.control.dat.remove.ybeam.constraint.detector.21.dat.030804.1305.log need bigger samples, use skimming, generate 1e6 events INIT: Skimming enabled. Skim cuts follow INIT skim: Gen Photon at 10rl into PR/CAL |X|< 300.00 |Y|< 300.00 at hole at CAL front |X|> 0.00 |Y|> 0.00 INIT skim: Recon KL. 0.00 < E(K) <3000.00 and 950.00 < Z(K) <1450.00 INIT skim: Recon pi0. 0.00 < E*pi < 300.00 and 90.00 < Mgg < 180.00 E*pi - |E*g1-E*g2|> 0.00 /e787u/djaffe/KOPIO/fastmc/scripts/../log/fastmc.control.dat.remove.ybeam.constraint.detector.21.dat.030804.1452.log /u1/djaffe/kopio/fastmc/ntuples/nnpi0.y50.z1215.with.ybeam.constraint.a.rzn.ntskim FASTMC: Skim accepted 116 of 1000000 generated events. Effy= 0.012 +- 0.001 PERCENT /e787u/djaffe/KOPIO/fastmc/scripts/../log/fastmc.control.dat.remove.ybeam.constraint.detector.21.dat.030804.1658.log /u1/djaffe/kopio/fastmc/ntuples/nnpi0.y50.z1215.without.ybeam.constraint.a.rzn.ntskim FASTMC: Skim accepted 108 of 1000000 generated events. Effy= 0.011 +- 0.001 PERCENT ****************************************** Wed Aug 4 10:44:45 EDT 2004 INIT: Take Ybeam size for constraint in pi0 fit from Ybeam angle INIT: NEUTRONS ENABLED. Option= 2 P(n) from measured spectrum. Interaction point= 140.000 0.000 1215.000 INIT: generate 1000000 events of type nn -> pi0X. Logfile name is /e787u/djaffe/KOPIO/fastmc/scripts/../log/fastmc.control.dat.remove.ybeam.constraint.detector.21.dat.040804.1044.log /u1/djaffe/kopio/fastmc/ntuples/nnpi0.x140.z1215.with.ybeam.constraint.a.rzn.ntskim FASTMC: Skim accepted 41 of 1000000 generated events. Effy= 0.004 +- 0.001 PERCENT make more Logfile name is /e787u/djaffe/KOPIO/fastmc/scripts/../log/fastmc.control.dat.remove.ybeam.constraint.detector.21.dat.040804.1124.log INIT: generate 10000000 events of type nn -> pi0X. INIT: Take Ybeam size for constraint in pi0 fit from Ybeam angle INIT: /u1/djaffe/kopio/fastmc/ntuples/nnpi0.x140.z1215.with.ybeam.constraint.b.rzn.ntskim on logical unit= 20 INIT: NEUTRONS ENABLED. Option= 2 P(n) from measured spectrum. Interaction point= 140.000 0.000 1215.000 FASTMC: Skim accepted 470 of10000000 generated events. Effy= 0.005 +- 0.000 PERCENT 15 instances of ' FACT.INC: about to div by 0' for CPV timing, need higher stats. scripts/submit.standard.bunch.of.jobs.script - modified "increase # of ke3g jobs" % submit.standard.bunch.of.jobs.script detector.21.dat key 10 logfile is ../log/standard.bunch.of.jobs.detector.21.dat.10.040804.1625.log moved remaining ntuples in aspect1.bryman.list from /home to /u1 to make room for standard.bunch: % df /u1 /home ; mover ;df /u1 /home Filesystem 1k-blocks Used Available Use% Mounted on /dev/sdb2 35550516 26711648 8838868 76% /u1 /dev/sda4 30637428 26509768 2571364 92% /home Filesystem 1k-blocks Used Available Use% Mounted on /dev/sdb2 35550516 31009596 4540920 88% /u1 /dev/sda4 30637428 22158692 6922440 77% /home estimated rate from neutron hits at x=140cm is negligible, need more stats at y=50cm: Logfile name is /e787u/djaffe/KOPIO/fastmc/scripts/../log/fastmc.control.dat.remove.ybeam.constraint.detector.21.dat.040804.1723.log INIT: generate 10000000 events of type nn -> pi0X. INIT: Take Ybeam size for constraint in pi0 fit from Ybeam angle INIT: NEUTRONS ENABLED. Option= 2 P(n) from measured spectrum. Interaction point= 0.000 50.000 1215.000 /u1/djaffe/kopio/fastmc/ntuples/nnpi0.y50.z1215.with.ybeam.constraint.b.rzn.ntskim FASTMC: Skim accepted 1087 of10000000 generated events. Effy= 0.011 +- 0.000 PERCENT ******************************* Thu Aug 5 09:04:21 EDT 2004 here is part of Andries's response to my message from yesterday: Date: Wed Aug 4 20:25:58 2004 From: andries To: David E Jaffe Subject: Re: FastMC results with your ln(Emiss)/T*^2 contour hi David thanks for these results. I will look at this more carefully tomorrow morning. After extensive studies I arrived at a very similar cut (using Emissing and the Ycomponent of the missing momentum) you use. In addition I found it helps to cut on the energies of the two gammas that form the signal. When I remember correctly I require now that at least one of them has energy above 180 MeV and that none of them has more than 400 MeV. I then started to optimize the contour cut but didn't finish yet. We can't expect the contour remains unchanged by adding this background component. K->2pi will come down a lot with some (10-20%?) loss of signal. [snip] -------------------------- add a plot of Ehigh vs Elow for signal candidate gammas % analysis.script one.each.aspect1.bryman.list ../geometry/detector.21.dat & Log file /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.one.each.aspect1.bryman.050804.0918.log After conversation with Laur based on another of Andries's emails, I checked the assumed size of the catcher: X halfwidth Y halfwidth Z at US end Z at DS end Volume name 200.00000 50.00000 1595.00000 2715.00000 CatchrVol This is way bigger than area we expect to be occupied by the catcher and the guard counters (see p.2 in " Latest design for the Guard Counter" at http://pubweb.bnl.gov/users/e926/www/meetings/DCV/jul23_04/ ) As a better approximation, I will make the catcher 150 * 15 (X * Y halfwidths). From a plot of Y at catcher for Kp2, approximately 35% of photons that previously hit 200x50200x50 catcher will hit 150x15 catcher. oops, turns out I was smarter than that. 'CATCHER DETECTOR' is actually 200x10 ! geometry/detector.22.dat - new "change catcher detector from 200x10 to 150x15 (XxY cm)" source/detector.f - modified "report size of catcher detector" >>>>>>>>>>>>>>>>>>>>>>> FIX THIS: GammaCaught in select_signal is always FALSE. It is used in fillallbut1 check effect of change in catcher size % analysis.script one.each.aspect1.bryman.list ../geometry/detector.22.dat & Log file /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.one.each.aspect1.bryman.050804.1139.log ***** ERROR in HBOOK2 : Not enough space in memory : ID= .... occurred after ke3g ntuple was opened. delete some unused hists from bookanal/fillanal hist 20,21,41,43,44 source/bookanal.f - modified "remove unused hists" source/fillanal.f - modified "remove unused hists" source/anal.f - modified "add warning if Nevent>MaxEvent" test job: analysis.script one.each.aspect1.bryman.list ../geometry/detector.22.dat & DEBUG=2 Log file /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.one.each.aspect1.bryman.050804.1319.log DEBUG=0, MAXEVENT=20 Log file /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.one.each.aspect1.bryman.050804.1334.log now HBOOK2 errors gone, but ***** ERROR in HNBUFR : Not enough space in memory : ID= 1 occurs! back-tracking i find that errors started after the ehi vs elo plot was added.. remove id=56 from bookanal and try again... % analysis.script one.each.aspect1.bryman.list ../geometry/detector.22.dat & Log file /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.one.each.aspect1.bryman.050804.1351.log hmmm. error message disappears.... turn off all of the all-but-one (cut) hists since i don't use them and re-institute id=56 source/anal.f - modified "turn off all allbut1 hists" % analysis.script one.each.aspect1.bryman.list ../geometry/detector.22.dat & Log file /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.one.each.aspect1.bryman.050804.1404.log no error messages! OK. now run jobs to check effect of changing size of catcher: % analysis.script one.each.aspect1.bryman.list ../geometry/detector.22.dat & Log file /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.one.each.aspect1.bryman.050804.1411.log with 150x15 catcher ( /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.one.each.aspect1.bryman.050804.1411.log ): Using AvdS photon veto with threshold= 3.000 MeV and exponent= 1.800 Mode Generated Effy(wt) N/N(Kpnn) Nev(mode) dNeV(mode) Who kpnn 0.1000E+06 0.3264E-02 1.000 124.4 1.642 AvdS *kpgg 0.1000E+06 0.1078E-09 0.1850E-02 0.2302 0.6938E-01 AvdS *kp3 0.1000E+06 0.9143E-15 0.1973E-02 0.2455 0.6198E-01 AvdS *kp2 0.2000E+06 0.6421E-10 0.6079 75.63 21.17 AvdS *ke4 0.1000E+06 0.1581E-12 0.8362E-04 0.1040E-01 0.5479E-03 AvdS *ke3g 0.1000E+06 0.1821E-12 0.6734E-02 0.8377 0.1034 AvdS *kcp3 0.1000E+06 0.1518E-13 0.1946E-01 2.422 0.5889 AvdS Key N(Kpnn)/B d(S/B) Nev dNeV bkgd 1.567 0.4186 79.38 21.18 AvdS % analysis.script one.each.aspect1.bryman.list ../geometry/detector.21.dat & Log file /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.one.each.aspect1.bryman.050804.1454.log with 200x10 catcher ( /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.one.each.aspect1.bryman.050804.1454.log ) Mode Generated Effy(wt) N/N(Kpnn) Nev(mode) dNeV(mode) Who kpnn 0.1000E+06 0.3264E-02 1.000 124.4 1.642 AvdS *kpgg 0.1000E+06 0.9727E-10 0.1669E-02 0.2077 0.6859E-01 AvdS *kp3 0.1000E+06 0.9108E-15 0.1966E-02 0.2446 0.6200E-01 AvdS *kp2 0.2000E+06 0.6572E-10 0.6222 77.42 21.28 AvdS *ke4 0.1000E+06 0.1581E-12 0.8362E-04 0.1040E-01 0.5479E-03 AvdS *ke3g 0.1000E+06 0.1821E-12 0.6734E-02 0.8377 0.1034 AvdS *kcp3 0.1000E+06 0.1518E-13 0.1946E-01 2.422 0.5889 AvdS Key N(Kpnn)/B d(S/B) Nev dNeV bkgd 1.533 0.4029 81.14 21.29 AvdS Conclusion: 200x10 kp2 rate is ~2.4% higher than 150x15 catcher kpgg 9.9% lower kp3 0.4% lower (note that the same events are used so stat uncertainties are highly correlated) Not really much of a change. % simple.run.fastmc.script control.dat.remove.ybeam.constraint detector.22.dat & Logfile name is /e787u/djaffe/KOPIO/fastmc/scripts/../log/fastmc.control.dat.remove.ybeam.constraint.detector.22.dat.050804.1503.log INIT: generate 100000 events of type nn -> pi0X. INIT: Take Ybeam size for constraint in pi0 fit from Ybeam angle INIT: /u1/djaffe/kopio/fastmc/ntuples/nnpi0.y0.z1215.with.ybeam.constraint.a.rzn.ntskim on logical unit= 20 INIT: NEUTRONS ENABLED. Option= 2 P(n) from measured spectrum. Interaction point= 0.000 0.000 1215.000 FASTMC: Skim accepted 15 of 100000 generated events. Effy= 0.015 +- 0.004 PERCENT now look at rejecting more kp2 with |E1*-E2*| vs Emiss cut: % analysis.script one.kpnn.and.two.kp2.aspect1.bryman.list ../geometry/detector.22.dat & Log file /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.one.kpnn.and.two.kp2.aspect1.bryman.050804.1543.log Using AvdS photon veto with threshold= 3.000 MeV and exponent= 1.800 Mode Generated Effy(wt) N/N(Kpnn) Nev(mode) dNeV(mode) Who kpnn 0.1000E+06 0.3278E-02 1.000 125.0 1.641 AvdS *kp2 0.4000E+06 0.5541E-10 0.5223 65.27 3.709 AvdS add cut requiring ((Emiss-250)/250)**2 + ((dEst-130)/25)**2 > 1 , dEst = |E*1-E*2| see set.kp2.ediff.vs.emiss.cut.ps for graphical view. remake one.kpnn.and.two.kp2.aspect1.bryman.list with different kpnn and kp2 ntuples: % analysis.script one.kpnn.and.two.kp2.aspect1.bryman.list ../geometry/detector.22.dat & Log file /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.one.kpnn.and.two.kp2.aspect1.bryman.050804.1746.log Using AvdS photon veto with threshold= 3.000 MeV and exponent= 1.800 Mode Generated Effy(wt) N/N(Kpnn) Nev(mode) dNeV(mode) Who kpnn 0.1000E+06 0.2962E-02 1.000 112.9 1.553 AvdS *kp2 0.4000E+06 0.4646E-10 0.4847 54.73 10.63 AvdS Signal decreased by .90(.02) bkgd decreased by .84(.17) not a rousing success, but kp2 has a high weight event .38e-5 or 20% of kp2 total weight = 1.86e-5, which is a kp2-odd with a gamma in US hole. and the high weight event had Emiss = 304.5, dEst = | 55.29 213.2| = 157.9 ((Emiss-250)/250)**2 + ((dEst-130)/25)**2 = .05 + 1.25 just at the cut boundary remove ((Emiss-250)/250)**2 + ((dEst-130)/25)**2 cut for now. add ntuples from latest standard bunch to aspect1.bryman, omitting ke3g.91043.141 that is still running. % grep -E 'kpnn|ke3g|ke4|kcp3' aspect1.bryman.list > kpnn.ke3g.ke4.kcp3.aspect1.bryman.list % grep -E 'kpnn|kp2' aspect1.bryman.list > kpnn.kp2.aspect1.bryman.list % wc -l kpnn.ke3g.ke4.kcp3.aspect1.bryman.list 83 kpnn.ke3g.ke4.kcp3.aspect1.bryman.list % wc -l kpnn.kp2.aspect1.bryman.list 66 kpnn.kp2.aspect1.bryman.list % analysis.script kpnn.ke3g.ke4.kcp3.aspect1.bryman.list ../geometry/detector.22.dat & Log file /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.kpnn.ke3g.ke4.kcp3.aspect1.bryman.050804.1859.log remake kpnn.kp2... cuz don't want two analysis jobs to try to gzip/gunzip same kpnn file % grep -E 'kpnn' aspect1.bryman.list | sort -n > kpnn.kp2.aspect1.list % grep -E 'kp2' aspect1.bryman.list | sort -n >> kpnn.kp2.aspect1.list % wc -l kpnn.kp2.aspect1.list 66 kpnn.kp2.aspect1.list % analysis.script kpnn.kp2.aspect1.bryman.list ../geometry/detector.22.dat & Log file /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.kpnn.kp2.aspect1.bryman.050804.1902.log >>>>>>>>>>>>>>>>>>>>>>>>>> why is Ehi vs Emiss for nnpi0 different from previous mc ? still need a lot more ke4, ke3g, kcp3 bkgd. mod script to only submit ke4,ke3g, kcp3 % submit.standard.bunch.of.jobs.script submit.standard.bunch.of.jobs.script detector.21.dat key 10 logfile is ../log/standard.bunch.of.jobs.detector.21.dat.10.050804.2054.log scripts/submit.standard.bunch.of.jobs.script - modified "add chargeonly option" ****************************************** Fri Aug 6 09:28:05 EDT 2004 from kpnn.kp2 job: Using AvdS photon veto with threshold= 3.000 MeV and exponent= 1.800 Mode Generated Effy(wt) N/N(Kpnn) Nev(mode) dNeV(mode) Who kpnn 0.1200E+07 0.3309E-02 1.000 126.1 0.4768 AvdS *kp2 0.1080E+08 0.6162E-10 0.5754 72.58 2.284 AvdS Key N(Kpnn)/B d(S/B) Nev dNeV bkgd 1.738 0.5509E-01 72.58 2.284 AvdS add plot of Ehi vs dEstar for Emiss<350 MeV % analysis.script one.kpnn.and.two.kp2.aspect1.bryman.list ../geometry/detector.22.dat & Log file /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.one.kpnn.and.two.kp2.aspect1.bryman.060804.0927.log fix typo, resub analysis.script one.kpnn.and.two.kp2.aspect1.bryman.list ../geometry/detector.22.dat & Log file /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.one.kpnn.and.two.kp2.aspect1.bryman.060804.0953.log remake aspect1.bryman.list with all files from ../log/standard.bunch.of.jobs.detector.21.dat.10.040804.1625.log and files upto ke3g.91059 from ./log/standard.bunch.of.jobs.detector.21.dat.10.050804.2054.log and all files currently in aspect1.bryman.list now: 12 kpnn in aspect1.bryman.list 54 kp2 17 ke3g 40 kcp3 40 ke4 Investigate differences between old and new nnpi0 jobs OLD nnpi0 ../log/fastmc.control.dat.detector.6.dat.261102.0835.log: Start time is Tue Nov 26 08:35:34 EST 2002 control and detector files are -rw-rw-r-- 1 djaffe djaffe 4971 Nov 21 15:07 /e787u/djaffe/KOPIO/fastmc/scripts/../geometry/detector.6.dat -rw-rw-r-- 1 djaffe djaffe 4004 Nov 26 08:35 control.dat INIT: Begin job at 083535.3 20021126 DETECTOR:BEAM PIPE Xsize= 35.00 is too small wrt aperature*beam divergence= 47.50 Z= 950.0 Theta=0.5000E-01 MAKING IT BIGGER! DETECTOR: Adjust DOWNSTREAM HOLE X to size= 90.00 = Z= 1350. *Theta=0.5000E-01 +Clearance= 22.50 DETECTOR: Adjust DOWNSTREAM HOLE Y to size= 10.00 = Z= 1350. *Theta=0.2500E-02 +Clearance= 6.625 X halfwidth Y halfwidth Z at US end Z at DS end Volume name 47.97500 4.00000 0.00000 950.00000 Beam pipe 200.00000 200.00000 950.00000 1350.00000 Decay vol 200.00000 200.00000 1350.00000 1450.00000 Pre-Rad 250.00000 250.00000 1450.00000 1530.00000 Calorim 90.00000 10.00000 1350.00000 1530.00000 DS hole 200.00000 50.00000 1530.00000 2650.00000 CatchrVol 180.00000 180.00000 970.00000 1330.00000 Vacuum tank [snip] INIT: generate 1000000 events of type nn -> pi0X. INIT: Beam envelope (radians), ThetaX=0.1000 ThetaY=0.5000E-02 INIT: Take Ybeam size for constraint in pi0 fit from Ybeam angle INIT: Write ntuple id= 1 , Jaffe-style ntuple to file ../ntuples/nnpi0.n.rzn.ntskim on logical unit= 20 INIT: SMEARING enabled. Incorporate resolution effects INIT: Energy resolution. sigma(E) =2.7000%/sqrt(E in GEV) INIT: Time resolution = 0.2000 ns INIT: Position resolution. sigma(x) =0.4500/sqrt(E in GEV) sigma(y) =0.4500/sqrt(E in GEV) INIT: Angular resolution (angles in radians, E in GEV): INIT: Narrow component. fraction =0.96000 sigma(xz) =0.00820/E^0.7 sigma(yz) =0.00820/E^0.7 INIT: Wide component. fraction=0.0400 sigma(wide) = 3.6000*sigma(narrow) XZ-YZ correl coeff=0.0000 INIT: e+ ANNIHILATION in vacuum tank wall DISABLED INIT: Use Z(Rear of PR)= 1450.00 as photon conversion point INIT: Threshold Energy for good photons in PR/CAL= 10.00 INIT: Perform pi0 constrained fits INIT: NEUTRONS ENABLED. Option= 2 P(n) from measured spectrum. Interaction point= 0.000 6.750 1349.000 INIT: trigger cuts are -1 .le. NPRCAL .le.1000 and -1 .le. Nveto .le.1000 INIT: Skimming enabled. Skim cuts follow INIT skim: Gen Photon at 10rl into PR/CAL |X|< 300.00 |Y|< 300.00 at hole at CAL front |X|> 0.00 |Y|> 0.00 INIT skim: Recon KL. 0.00 < E(K) <1486.00 and 0.00 < Z(K) <2000.00 INIT skim: Recon pi0. 0.00 < E*pi < 250.00 and 100.00 < Mgg < 170.00 E*pi - |E*g1-E*g2|> 0.00 INIT skim: Select both Kp2 ODD & EVEN events, if these are true Kp2 events [snip] MAKENN: Using neutron spectrum.Ethres=1219.21 Pthres= 776.98 NSPECTRUM:Emax= 2500. Ethres= 1219. weight(Ethres)=0.3577E-04 weight(Emax)=0.5189E-06 FITPI0: YbeamSize= 5.750 sigma(Ybeam)= 1.660 [snip] FASTMC: Skim accepted 186222 of 1000000 generated events. Effy= 18.622 +- 0.039 PERCENT ----------------------------------- now create similar new file simple.run.fastmc.script control.dat.remove.ybeam.constraint detector.22.dat & /e787u/djaffe/KOPIO/fastmc/scripts/../log/fastmc.control.dat.remove.ybeam.constraint.detector.22.dat.060804.0947.log Start time is Fri Aug 6 09:47:37 EDT 2004 control and detector files are -rw-rw-r-- 1 djaffe djaffe 5581 Aug 5 11:13 /e787u/djaffe/KOPIO/fastmc/scripts/../geometry/detector.22.dat -rw-rw-r-- 1 djaffe djaffe 4381 Aug 6 09:47 control.dat.remove.ybeam.constraint INIT: Begin job at 094737.8 20040806 CONTROL: 1st 80 characters of unrecognized input line: X halfwidth Y halfwidth Z at US end Z at DS end Volume name 65.00000 5.00000 -10.00000 1015.00000 Beam pipe 200.00000 200.00000 1015.00000 1415.00000 Decay vol 200.00000 200.00000 1415.00000 1515.00000 Pre-Rad 250.00000 250.00000 1515.00000 1595.00000 Calorim 110.25000 11.55000 1415.00000 1595.00000 DS hole 200.00000 50.00000 1595.00000 2715.00000 CatchrVol 180.00000 180.00000 1035.00000 1395.00000 Vacuum tank [snip] INIT: generate 10000 events of type nn -> pi0X. INIT: Beam envelope (milliradians), ThetaX= 100.0 ThetaY= 5.0 INIT: KL beam angle wrt primary beam is (degrees)= 42.50 INIT: Beam collimation ENABLED INIT: Extended target ENABLED INIT: Take Ybeam size for constraint in pi0 fit from Ybeam angle INIT: Write ntuple id= 1 , Jaffe-style ntuple to file /u1/djaffe/kopio/fastmc/ntuples/nnpi0.y6.75.z1414.rzn.ntskim on logical unit= 20 INIT: SMEARING enabled. Incorporate resolution effects INIT: Energy resolution. sigma(E) =2.7000%/sqrt(E in GEV) INIT: Time resolution = 0.2000 ns INIT: Position resolution. sigma(x) =0.4500/sqrt(E in GEV) sigma(y) =0.4500/sqrt(E in GEV) INIT: e+ ANNIHILATION in vacuum tank wall DISABLED INIT: Use Bryman`s analytic form for angular resolution with Zconv= 1415.00 INIT: Threshold Energy for good photons in PR/CAL= 10.00 INIT: Perform these pi0 constrained fits: 2g INIT: NEUTRONS ENABLED. Option= 2 P(n) from measured spectrum. Interaction point= 0.000 6.750 1414.000 INIT: trigger cuts are -1 .le. NPRCAL .le.1000 and -1 .le. Nveto .le.1000 INIT: Skimming enabled. Skim cuts follow INIT skim: Gen Photon at 10rl into PR/CAL |X|< 300.00 |Y|< 300.00 at hole at CAL front |X|> 0.00 |Y|> 0.00 INIT skim: Recon KL. 0.00 < E(K) <3000.00 and 0.00 < Z(K) <2000.00 INIT skim: Recon pi0. 0.00 < E*pi < 250.00 and 100.00 < Mgg < 170.00 E*pi - |E*g1-E*g2|> 0.00 INIT skim: Select both Kp2 ODD & EVEN events, if these are true Kp2 events [snip] MAKENN: Using neutron spectrum.Ethres=1219.21 Pthres= 776.98 NSPECTRUM:Emax= 2500. Ethres= 1219. weight(Ethres)=0.3577E-04 weight(Emax)=0.5189E-06 GEN_VERTEX: P(p beam GeV)=25.5000 dT(ns)= 0.2000 Xrms(cm)= 0.0170 Yrms(cm)= 0.0170 Target dim.(cm) x,y,z= 0.8 0.2 10.6 Target int. length(cm)= 8.8438 Angle(deg) of KOPIO tgt wrt p beam=42.5000 GET_PR_RESOLUTION: 3.4% X0/layer Energy Parameter Angular region 1 2 3 4 5 150.0 sigma1 31.3 32.0 31.2 33.4 41.8 sigma2 60.8 58.5 81.0 89.1 fraction1 0.7425 0.6134 0.4351 0.6428 1.0000 ratio 5.6000 2.9000 2.0000 4.8000 -1.0000 250.0 sigma1 20.8 20.9 24.2 24.5 25.0 sigma2 57.7 59.7 71.2 69.2 54.9 fraction1 0.6521 0.5709 0.6473 0.6390 0.6456 ratio 5.2000 3.8000 5.4000 5.0000 4.0000 350.0 sigma1 17.4 18.5 18.7 18.9 20.2 sigma2 67.0 71.5 66.6 67.0 47.0 fraction1 0.7475 0.7400 0.7165 0.6875 0.6641 ratio 11.4000 11.0000 9.0000 7.8000 4.6000 INTERPOLATION WILL BE USED FITPI0: YbeamSize= 6.075 sigma(Ybeam)= 1.754 , for 0g fit only: XbeamSize= 121.5 sigma(Xbeam)= 35.07 [snip] FASTMC: Skim accepted 51 of 10000 generated events. Effy= 0.510 +- 0.071 PERCENT ------------------------------------------------- remake above file with 10x events /e787u/djaffe/KOPIO/fastmc/scripts/../log/fastmc.control.dat.remove.ybeam.constraint.detector.22.dat.060804.0956.log there is a mistake in makenn for the extended target! fix it, no burnt bridges: % cp makenn.f makenn.f.old Ehi vs dEstar for Emiss<350 looks promising. increase kp2 stats: % grep kpnn aspect1.bryman.list | head -1 > one.kpnn.and.ten.kp2.aspect1.bryman.list % grep kp2 aspect1.bryman.list | head -10 >> one.kpnn.and.ten.kp2.aspect1.bryman.list % analysis.script one.kpnn.and.ten.kp2.aspect1.bryman.list ../geometry/detector.22.dat & Log file /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.one.kpnn.and.ten.kp2.aspect1.bryman.060804.1024.log source/makenn.f - modified "fix bug assoc with extended tgt" source/Makefile - modified ">>>>>>>>>>>>>>>>TEMPORARILY CHANGE NAME OF EXECUTABLE<<<<<<<<<<<<<<<" scripts/simple.run.fastmc.script - modified ">>>>>>>>>>>>>>>>TEMPORARILY CHANGE NAME OF EXECUTABLE<<<<<<<<<<<<<<<" source/rhistory.f - modified "mods to evt gen jobs" source/userselect.f - modified "add debug output" results from hist 21 of ../log/anal.one.kpnn.and.ten.kp2.aspect1.bryman.060804.1024.log suggest cut 90 another.one.kpnn.and.ten.kp2.aspect1.bryman.list % grep kp2 aspect1.bryman.list | head -20 | tail -10 >> another.one.kpnn.and.ten.kp2.aspect1.bryman.list % analysis.script another.one.kpnn.and.ten.kp2.aspect1.bryman.list ../geometry/detector.22.dat & Log file /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.another.one.kpnn.and.ten.kp2.aspect1.bryman.060804.1253.log results WITH 900 meaning that the others had beta <0 or >1 this is quite different from earlier simulation which had ~19% accepted AFTER skim! for catcher model 1, kp2 bkgd = 54.24+- 3.693, 0.92+-.07 of result with fixed ineffy=.01 fromfile /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.test.060804.1600.log catcher model 4, kp2 bkgd = 80.72+- 8.150, 1.36 +- .15 of result with fixed ineffy=0.01 , 1.49 +- .18 times catcher model 1 Log file /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.test.060804.1613.log update aspect1.bryman.list excluding ke3g.91063 that is still running. big job with catcher model 1: % analysis.script aspect1.bryman.list ../geometry/detector.22.dat & Log file /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.aspect1.bryman.060804.1707.log Using AvdS photon veto with threshold= 3.000 MeV and exponent= 1.800 Use energy-dependent ineffy catcher model 1 Mode Generated Effy(wt) N/N(Kpnn) Nev(mode) dNeV(mode) Who kpnn 0.1200E+07 0.3094E-02 1.000 117.9 0.4578 AvdS *kpgg 0.3000E+06 0.1490E-09 0.2697E-02 0.3181 0.9577E-01 AvdS *kp3 0.1200E+07 0.1140E-14 0.2595E-02 0.3061 0.2937E-01 AvdS *kp2 0.1080E+08 0.5374E-10 0.5367 63.30 1.513 AvdS *ke4 0.4000E+07 0.1209E-10 0.6748E-02 0.7959 0.2552 AvdS *ke3g 0.2100E+07 0.1380E-12 0.5383E-02 0.6349 0.1687E-01 AvdS *kcp3 0.4000E+07 0.1088E-13 0.1471E-01 1.735 0.6070E-01 AvdS Key N(Kpnn)/B d(S/B) Nev dNeV bkgd 1.758 0.4089E-01 67.09 1.539 AvdS catcher 4: % grep kp2 aspect1.bryman.list > kp2.aspect1.bryman.list % analysis.script kp2.aspect1.bryman.list ../geometry/detector.22.dat & Log file /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.kp2.aspect1.bryman.070804.0937.log need to modify gettrkweight for charge veto to take into account decay-in-flight via positionatcv, timing window and maximum available kinetic energy Using AvdS photon veto with threshold= 3.000 MeV and exponent= 1.800 Use energy-dependent ineffy catcher model 4 Mode Generated Effy(wt) N/N(Kpnn) Nev(mode) dNeV(mode) Who *kp2 0.1080E+08 0.7772E-10 0.000 91.56 2.171 AvdS Key N(Kpnn)/B d(S/B) Nev dNeV bkgd 0.000 0.000 91.56 2.171 AvdS source/analvar.inc - modified "add CVHitTime, VE(itk) -> VE(itk,irec)" source/gethittime.f - new "fill CVHitTime" Should not treat non-annihilating e+ with mu+ ineffy. remove message in setupanal, fix code in gettrkweight, usveto. Use particle type and momentum of particle that actually hit CV to compute CPV ineffy. A source/setupanal.f - modified "remove `Use mu+ chgveto effyfor non-annihilating e+` messsage, add CPVetoGate" source/usveto.f - modified "non-anni e+ no longer has mu+ ineffy" source/gettrkweight.f - modified "non-anni e+ no longer has mu+ ineffy, add argument CPVineffy" source/flags.inc - modified "add CPVetoGate" source/getcandwt.f - modified "adjust veto ineffy to take into account CPVetoGate" s/r particleid is not used. it was used for some defunct studies. don't call it anymore and remove it from makefile source/Makefile.anal - modified "add gethittime, remove particleid" source/anal.f - modified "remove calls to s/r particleid" source/rhistory.f - modified "VE(itk) -> VE(itk,irec)" source/select_signal.f - modified "VE(itk) -> VE(itk,irec)" update aspect1.bryman.list with all ke3g from latest standard bunch set CPVgate =(-4.,+8.) % analysis.script one.ke3g.ke4.kcp3.aspect1.bryman.list ../geometry/detector.22.dat & Log file /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.one.ke3g.ke4.kcp3.aspect1.bryman.080804.0203.log must've screwed up something when using the track that actually struck cv cuz ke3g now gives huge # of events even when cpvgate=-4e20,8e20. analysis.script test.list ../geometry/detector.22.dat logfile /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.test.080804.0306.log Sun Aug 8 03:10:39 EDT 2004 ******************************************* Mon Aug 9 08:57:32 EDT 2004 >>>>>>>>>>>>> add TEMPORARY debug to positionatcv, gettrkweight remove TEMPORARY debug in gettrkweight did I forget to remove all objects and recompile on sunday morning? with temp debug in gettrkweight, positionatcv, getcandwt: /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.test.090804.1411.log GETCANDWT: --------------- entry. event= 3483 GetCandWt: Neutral track so no CV impact GetCandWt: itk= 1 K0L CP= 1.00 WT=0.116 LossVV= 1.00 CPVineffy= 1.00 IgnorePV=F VE(irec.le.20)= 1.00 PositionAtCV: ITK= 2 Ancestors= 2 PositionAtCV: Inside(X1, CV1)=F InsideZ1=T ZUShole= 1015. X1(3)= 1349. ZPRfront= 1415. PositionAtCV: Inside(X2, CV1)=F InsideZ2=T ZUShole= 1015. X2(3)= 1415. ZPRfront= 1415. X2(3)-ZUShole= 400.0 ZPRfront-X2(3)= 0.000 PositionAtCV:JTK= 2 LastVol(JTK)= 3 LastPL(JTK)= 6 PositionAtCV: track 2 passed from inside to outside of CV1 PostionAtCV:Jplane= 1 Distance= 61.63 X3= 8.707 50.00 1385. PositionAtCV:track 2 hit CV1. GetCandWt: At CV impact.Track= 2 Position= 8.707 50.00 1385. Time= 64.26 TrueXYatZ:itk= 2 dz= 65.59 delZ= 65.59 x=-2.075 y= 91.36 Z= 1415. truexyatz= 1.000 CV12=0.698E-04 T= 1.00 Tdef= 80.0 INEFF1=0.449E-03 E=0.500E-01 Edef=0.200 INEFF2=0.257E-03 GETTRKWEIGHT:itk,ipart(itk),fate(itk),TrackCV(itk),JPART= 2 6 2 2 -2 p,Vineffy,CPVineffy= 134.7 0.6977E-04 0.6977E-04 [snip] SELECT_SIGNAL:Ntrack= 7 Nrecon= 1 irec= 1 icut= 7 AKcut= 1 EVTwt=0.9668E-09 CPwt=0.7999 VEwt=0.6977E-04 DKwt=0.1732E-04 PrecK= 537.2 ZrecK= 1346.0 event= 3483 SELECT_SIGNAL: Mgg E1* E2* Epi* E1 E2 Mmiss Emiss DOCA T1-T2 SELECT_SIGNAL: 113.1 140.2 47.26 187.5 201.6 65.27 281.5 465.4 0.4088E-04 0.000 SELECT_SIGNAL:Track# 1 2 3 4 5 6 7 LastVol, LastPlane 2 6 3 6 2 6 5 3 4 6 3 4 4 6 TrueXYatZ:itk= 2 dz= 65.59 delZ= 65.59 x=-2.075 y= 91.36 Z= 1415. truexyatz= 1.000 TrueXYatZ:itk= 2 dz= 165.6 delZ= 65.59 x=-37.89 y= 228.8 Z= 1515. truexyatz= 1.000 TrueXYatZ:itk= 4 dz= 65.59 delZ= 230.5 x= 10.65 y=-2.397 Z= 1415. truexyatz= 1.000 TrueXYatZ:itk= 4 dz= 165.6 delZ= 230.5 x=-5.768 y=-7.949 Z= 1515. truexyatz= 1.000 TrueXYatZ:itk= 5 dz= 65.59 delZ= 65.59 x= 79.21 y=-30.25 Z= 1415. truexyatz= 1.000 TrueXYatZ:itk= 5 dz= 165.6 delZ= 65.59 x= 167.3 y=-78.27 Z= 1515. truexyatz= 1.000 TrueXYatZ:itk= 6 dz= 20.00 delZ= 30.77 x=-136.5 y=-52.30 Z= 1415. truexyatz= 1.000 TrueXYatZ:itk= 6 dz= 120.0 delZ= 30.77 x=-726.5 y=-159.8 Z= 1515. truexyatz= 1.000 TrueXYatZ:itk= 7 dz= 20.00 delZ= 20.00 x=-35.02 y=-44.80 Z= 1415. truexyatz= 1.000 TrueXYatZ:itk= 7 dz= 120.0 delZ= 20.00 x=-117.9 y=-114.8 Z= 1515. truexyatz= 1.000 SELECT_SIGNAL:PathLn -1.000 -1.000 -1.000 101.5 141.7 -1.000 147.5 SELECT_SIGNAL:PV(E) 0.2500E-04 0.7052E-04 0.1749E-02 0.3790E-04 0.7483E-04 0.6248 0.1885E-02 SELECT_SIGNAL:KAMIPV 0.5037E-05 0.3701E-04 0.2409E-03 0.1974E-04 0.3860E-04 0.2500 0.2512E-03 SELECT_SIGNAL:PVE787 0.2500E-04 0.1038E-03 0.4651E-02 0.4251E-04 0.1139E-03 0.7905 0.5013E-02 SELECT_SIGNAL:Edeath 733.22 194.00 55.65 294.93 186.08 2.04 51.50 SELECT_SIGNAL:Ebirth 733.22 194.00 55.65 294.93 188.64 2.04 54.12 SELECT_SIGNAL:Pdeath 538.45 134.74 55.65 294.93 186.08 2.04 51.50 SELECT_SIGNAL: KE 235.55 54.43 55.14 294.93 186.08 2.04 51.50 SELECT_SIGNAL:Xdeath 21.42 -2.07 -18.45 -16.42 79.53 -200.00 -35.09 SELECT_SIGNAL:Ydeath 1.24 91.36 -30.81 -11.55 -31.32 -63.87 -45.10 SELECT_SIGNAL:Zdeath 1349.41 1415.00 1395.00 1579.87 1415.00 1425.77 1415.00 Fate, Parent Type 1 0 K0L 2 1 pi- 3 1 e+ 2 1 nu 2 1 gamm 2 3 gamm 2 3 gamm SELECT_SIGNAL:Weight 0.1157 1.000 0.2455E-01 1.000 1.000 1.000 1.000 SELECT_SIGNAL: WT = 0.1157 1.000 0.1497E-03 1.000 1.000 1.000 1.000 SELECT_SIGNAL: CP = 1.000 1.000 1.000 1.000 0.8896 0.000 0.8992 SELECT_SIGNAL: VE = 1.000 0.6977E-04 1.000 1.000 0.8169E-04 1.000 0.8117E-03 SELECT_SIGNAL:Thit = 0.000 0.8247 0.000 0.000 0.000 0.000 0.000 with temp debug in gettrkweight, getcandwt: /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.test.090804.1420.log SELECT_SIGNAL:Ntrack= 7 Nrecon= 1 irec= 1 icut= 7 AKcut= 1 EVTwt=0.1386E-04 CPwt=0.7999 VEwt= 1.000 DKwt=0.1732E-04 PrecK= 537.2 ZrecK= 1346.0 event= 3483 SELECT_SIGNAL: Mgg E1* E2* Epi* E1 E2 Mmiss Emiss DOCA T1-T2 SELECT_SIGNAL: 113.1 140.2 47.26 187.5 201.6 65.27 281.5 465.4 0.4088E-04 0.000 SELECT_SIGNAL:Track# 1 2 3 4 5 6 7 LastVol, LastPlane 2 6 3 6 2 6 5 3 4 6 3 4 4 6 SELECT_SIGNAL:PathLn -1.000 -1.000 -1.000 101.5 141.7 -1.000 147.5 SELECT_SIGNAL:PV(E) 0.2500E-04 0.7052E-04 0.1749E-02 0.3790E-04 0.7483E-04 0.6248 0.1885E-02 SELECT_SIGNAL:KAMIPV 0.5037E-05 0.3701E-04 0.2409E-03 0.1974E-04 0.3860E-04 0.2500 0.2512E-03 SELECT_SIGNAL:PVE787 0.2500E-04 0.1038E-03 0.4651E-02 0.4251E-04 0.1139E-03 0.7905 0.5013E-02 SELECT_SIGNAL:Edeath 733.22 194.00 55.65 294.93 186.08 2.04 51.50 SELECT_SIGNAL:Ebirth 733.22 194.00 55.65 294.93 188.64 2.04 54.12 SELECT_SIGNAL:Pdeath 538.45 134.74 55.65 294.93 186.08 2.04 51.50 SELECT_SIGNAL: KE 235.55 54.43 55.14 294.93 186.08 2.04 51.50 SELECT_SIGNAL:Xdeath 21.42 -2.07 -18.45 -16.42 79.53 -200.00 -35.09 SELECT_SIGNAL:Ydeath 1.24 91.36 -30.81 -11.55 -31.32 -63.87 -45.10 SELECT_SIGNAL:Zdeath 1349.41 1415.00 1395.00 1579.87 1415.00 1425.77 1415.00 Fate, Parent Type 1 0 K0L 2 1 pi- 3 1 e+ 2 1 nu 2 1 gamm 2 3 gamm 2 3 gamm SELECT_SIGNAL:Weight 0.1157 1.000 0.2455E-01 1.000 1.000 1.000 1.000 SELECT_SIGNAL: WT = 0.1157 1.000 0.1497E-03 1.000 1.000 1.000 1.000 SELECT_SIGNAL: CP = 1.000 1.000 1.000 1.000 0.8896 0.000 0.8992 SELECT_SIGNAL: VE = 1.000 1.000 1.000 1.000 0.8169E-04 1.000 0.8117E-03 SELECT_SIGNAL:Thit = 0.000 0.000 0.000 0.000 0.000 0.000 0.000 USVETO INIT: N(X_0 US veto)= 4.672 Minimum traversal for chgveto(cm)= 0.500 USVETO INIT: Using AvdS PHOTON VETO SELECT_SIGNAL:USveto 1.000 1.000 1.000 1.000 1.000 1.000 1.000 SELECT_SIGNAL:EffRec 0.1386E-04 SELECT_SIGNAL:RecItk 5 7 hmmm. change code so that no additional calculations are done if debug is enabled in positionatcv /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.test.090804.1438.log still busted: GETCANDWT: --------------- entry. event= 3483 GetCandWt: Neutral track so no CV impact GetCandWt: Neutral track so no CV impact GETTRKWEIGHT:itk,ipart(itk),fate(itk),TrackCV(itk),JPART= 2 6 2 -1 0 p,Vineffy,CPVineffy= 0.000 1.000 1.000 GETCANDWT: itk,ipart(itk),trackcv(itk)= 2 6 -1 VetoIneffy,CPVineffy= 1.000 1.000 GetCandWt: Neutral track so no CV impact GETCANDWT: itk,ipart(itk),trackcv(itk)= 3 3 -1 VetoIneffy,CPVineffy= 1.000 1.000 GetCandWt: Neutral track so no CV impact GetCandWt: Neutral track so no CV impact GetCandWt: Neutral track so no CV impact GetCandWt: Neutral track so no CV impact SELECT_SIGNAL:Ntrack= 7 Nrecon= 1 irec= 1 icut= 7 AKcut= 1 EVTwt=0.1386E-04 CPwt=0.7999 VEwt= 1.000 DKwt=0.1732E-04 PrecK= 537.2 ZrecK= 1346.0 event= 3483 SELECT_SIGNAL: Mgg E1* E2* Epi* E1 E2 Mmiss Emiss DOCA T1-T2 SELECT_SIGNAL: 113.1 140.2 47.26 187.5 201.6 65.27 281.5 465.4 0.4088E-04 0.000 SELECT_SIGNAL:Track# 1 2 3 4 5 6 7 LastVol, LastPlane 2 6 3 6 2 6 5 3 4 6 3 4 4 6 SELECT_SIGNAL:PathLn -1.000 -1.000 -1.000 101.5 141.7 -1.000 147.5 SELECT_SIGNAL:PV(E) 0.2500E-04 0.7052E-04 0.1749E-02 0.3790E-04 0.7483E-04 0.6248 0.1885E-02 SELECT_SIGNAL:KAMIPV 0.5037E-05 0.3701E-04 0.2409E-03 0.1974E-04 0.3860E-04 0.2500 0.2512E-03 SELECT_SIGNAL:PVE787 0.2500E-04 0.1038E-03 0.4651E-02 0.4251E-04 0.1139E-03 0.7905 0.5013E-02 SELECT_SIGNAL:Edeath 733.22 194.00 55.65 294.93 186.08 2.04 51.50 SELECT_SIGNAL:Ebirth 733.22 194.00 55.65 294.93 188.64 2.04 54.12 SELECT_SIGNAL:Pdeath 538.45 134.74 55.65 294.93 186.08 2.04 51.50 SELECT_SIGNAL: KE 235.55 54.43 55.14 294.93 186.08 2.04 51.50 SELECT_SIGNAL:Xdeath 21.42 -2.07 -18.45 -16.42 79.53 -200.00 -35.09 SELECT_SIGNAL:Ydeath 1.24 91.36 -30.81 -11.55 -31.32 -63.87 -45.10 SELECT_SIGNAL:Zdeath 1349.41 1415.00 1395.00 1579.87 1415.00 1425.77 1415.00 Fate, Parent Type 1 0 K0L 2 1 pi- 3 1 e+ 2 1 nu 2 1 gamm 2 3 gamm 2 3 gamm SELECT_SIGNAL:Weight 0.1157 1.000 0.2455E-01 1.000 1.000 1.000 1.000 SELECT_SIGNAL: WT = 0.1157 1.000 0.1497E-03 1.000 1.000 1.000 1.000 SELECT_SIGNAL: CP = 1.000 1.000 1.000 1.000 0.8896 0.000 0.8992 SELECT_SIGNAL: VE = 1.000 1.000 1.000 1.000 0.8169E-04 1.000 0.8117E-03 SELECT_SIGNAL:Thit = 0.000 0.000 0.000 0.000 0.000 0.000 0.000 USVETO INIT: N(X_0 US veto)= 4.672 Minimum traversal for chgveto(cm)= 0.500 USVETO INIT: Using AvdS PHOTON VETO SELECT_SIGNAL:USveto 1.000 1.000 1.000 1.000 1.000 1.000 1.000 SELECT_SIGNAL:EffRec 0.1386E-04 SELECT_SIGNAL:RecItk 5 7 re-enable temp debug in positionatcv: /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.test.090804.1442.log GETCANDWT: --------------- entry. event= 3483 GetCandWt: Neutral track so no CV impact GetCandWt: itk= 1 K0L CP= 1.00 WT=0.116 LossVV= 1.00 CPVineffy= 1.00 IgnorePV=F VE(irec.le.20)= 1.00 PositionAtCV: ITK= 2 Ancestors= 2 PositionAtCV: Inside(X1, CV1)=F InsideZ1=T ZUShole= 1015. X1(3)= 1349. ZPRfront= 1415. PositionAtCV: Inside(X2, CV1)=F InsideZ2=T ZUShole= 1015. X2(3)= 1415. ZPRfront= 1415. X2(3)-ZUShole= 400.0 ZPRfront-X2(3)= 0.000 PositionAtCV:JTK= 2 LastVol(JTK)= 3 LastPL(JTK)= 6 PositionAtCV: track invalid or did not hit any CV GetCandWt: Neutral track so no CV impact TrueXYatZ:itk= 2 dz= 65.59 delZ= 65.59 x=-2.075 y= 91.36 Z= 1415. truexyatz= 1.000 this is a mystery cuz if Inside(X1, CV1)=F, then track shouldn't hit CV, but in earlier version it did! add more temp debug to positionatcv: /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.test.090804.1515.log add temp debug to fcn inside: /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.test.090804.1520.log modify fcn inside to use local logical in loop: /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.test.090804.1529.log more debug in fcn inside: /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.test.090804.1531.log NOW IT WORKS!! What the fuck! GETCANDWT: --------------- entry. event= 3483 GetCandWt: Neutral track so no CV impact GetCandWt: itk= 1 K0L CP= 1.00 WT=0.116 LossVV= 1.00 CPVineffy= 1.00 IgnorePV=F VE(irec.le.20)= 1.00 PositionAtCV: ITK= 2 Ancestors= 2 INSIDE:Q=T i= 1 j= 2 d=0.1435E+05 INSIDE:Q=T i= 2 j= 3 d=0.1186E+05 INSIDE:Q=T i= 3 j= 4 d=0.1365E+05 INSIDE:Q=T i= 4 j= 1 d=0.1614E+05 INSIDE=T :Point= 21.42 1.244 Corners= -140.0 -50.00 / 140.0 -50.00 / 140.0 50.00 / -140.0 50.00 / INSIDE:Q=T i= 1 j= 2 d=0.3958E+05 INSIDE:Q=T i= 2 j= 3 d=0.1421E+05 INSIDE:Q=F i= 3 j= 4 d=-.1158E+05 INSIDE=F :Point= -2.075 91.36 Corners= -140.0 -50.00 / 140.0 -50.00 / 140.0 50.00 / -140.0 50.00 / PositionAtCV:X1= 21.42 1.244 1349. X2= -2.075 91.36 1415. PositionAtCV: Inside(X1, CV1)=T InsideZ1=T ZUShole= 1015. X1(3)= 1349. ZPRfront= 1415. PositionAtCV: Inside(X2, CV1)=F InsideZ2=T ZUShole= 1015. X2(3)= 1415. ZPRfront= 1415. remove one line of debug in fcn inside: /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.test.090804.1533.log GETCANDWT: --------------- entry. event= 3483 GetCandWt: Neutral track so no CV impact GetCandWt: itk= 1 K0L CP= 1.00 WT=0.116 LossVV= 1.00 CPVineffy= 1.00 IgnorePV=F VE(irec.le.20)= 1.00 PositionAtCV: ITK= 2 Ancestors= 2 INSIDE=F :Point= 21.42 1.244 Corners= -140.0 -50.00 / 140.0 -50.00 / 140.0 50.00 / -140.0 50.00 / INSIDE=F :Point= -2.075 91.36 Corners= -140.0 -50.00 / 140.0 -50.00 / 140.0 50.00 / -140.0 50.00 / PositionAtCV:X1= 21.42 1.244 1349. X2= -2.075 91.36 1415. PositionAtCV: Inside(X1, CV1)=F InsideZ1=T ZUShole= 1015. X1(3)= 1349. ZPRfront= 1415. PositionAtCV: Inside(X2, CV1)=F InsideZ2=T ZUShole= 1015. X2(3)= 1415. ZPRfront= 1415. if I replace Q = d.gt.0. with if (d.gt.0.) then else Q = .FALSE. endif in fcn inside, then it seems to work ok. Bryan Field thinks that the compiler got confused. It did. WHen i remove "-O", the original statement works fine. I also tried compiling with "-ffortran-bounds-check" and found no occurances of array bounds overflow. So somehow the changes that I've made in the past few days have caused the compiler to do something incorrect in fcn inside. What? source/make.std - modified "remove -O from optimization" source/inside.f - modified "try to avoid confusing optimization" disable all temporary debug in gettrkweight, positionatcv, getcandwt: Log file /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.test.090804.1658.log now event rates are reasonable: Using AvdS photon veto with threshold= 3.000 MeV and exponent= 1.800 Mode Generated Effy(wt) N/N(Kpnn) Nev(mode) dNeV(mode) Who *ke3g 0.1000E+06 0.1560E-12 0.000 0.7177 0.6938E-01 AvdS need to set timing windows now.... ***********************************************8 Tue Aug 10 09:01:47 EDT 2004 CPVetoGate = (-4,8) ns: /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.test.100804.0902.log Using AvdS photon veto with threshold= 3.000 MeV and exponent= 1.800 Mode Generated Effy(wt) N/N(Kpnn) Nev(mode) dNeV(mode) Who *ke3g 0.1000E+06 0.1577E-10 0.000 72.55 71.84 AvdS must be dominated by a single event source/anal.f - modified "set HiWtDump=1e-6 for ke3g" again: /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.test.100804.0907.log rate is dominated by single event, wt=1.2e-6 (mean of log10(all ke3g weights) is -11 and next largest weight is ~1e-9. single event has dif with E(pi-)=159MeV. T(K,mrec) source/flags.inc - modified "add IgnoreDIF" source/gettrkweight.f - modified "add IgnoreDIF" source/usveto.f - modified "add IgnoreDIF" source/setupanal.f - modified "add IgnoreDIF" source/getcandwt.f - modified "add IgnoreDIF" Log file /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.test.100804.1222.log SetupANAL: Ignore Decay-in-flight when evaluating CPV ineffy. THIS IS NON-STANDARD USAGE SetupANAL: Ignore charge particle veto gate timing when DIF is ignored. Using AvdS photon veto with threshold= 3.000 MeV and exponent= 1.800 Mode Generated Effy(wt) N/N(Kpnn) Nev(mode) dNeV(mode) Who *ke3g 0.1000E+06 0.1492E-12 0.000 0.6861 0.6810E-01 AvdS slight difference in rates with DIF ignored (.72+-.07 incl. DIF) big job with IGNOREDIF = TRUE, % analysis.script kpnn.ke3g.ke4.kcp3.aspect1.bryman.list ../geometry/detector.22.dat & Log file /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.kpnn.ke3g.ke4.kcp3.aspect1.bryman.100804.1229.log List of ntuples 4126 Aug 10 12:29 kpnn.ke3g.ke4.kcp3.aspect1.bryman.list Updated Akira OFFLINE fcn being used Use Andries van der Schaaf`s in JCUTS Using CV model 3 with PV boost Using CV model 3 with CV wrapper thickness= 1.00 mg/cm^2, Energy threshold=0.500E-01 MeV Using CV model 3 with OPTIMISTIC INEFFYS Ignore Decay-in-flight when evaluating CPV ineffy. THIS IS NON-STANDARD USAGE Ignore charge particle veto gate timing when DIF is ignored. Process ONLY 2g fits Using AvdS photon veto with threshold= 3.000 MeV and exponent= 1.800 Use energy-dependent ineffy catcher model 4 Use charge veto approximation for annihilating e+ Allow vetoes thru US beam pipe in US wall. Thickness(US veto)= 80.00 X0(US veto)= 17.12 RL(US veto) in cm= 4.67 Require cos(Glo,Ghi) < 0.940 to veto on lower energy gamma from e+ annihilation Supplement Zeller cuts with Konaka wrap-around cuts Supplement Zeller cuts with Konaka slow Kpi3 cuts Vacuum vessel radius= 115.00 Z(US endplate)=1025.00 Z(DS endplate)=1414.00 1090.00 < Z(recon K0L) < 1365.00 X_0(PR)= 50.0 N(rad.lens in PR)= 2.0 [snip] Times(s): Spill= 2.400 Interspill= 2.300 Running time=0.4320E+08 Running time(hrs)=0.1200E+05 Using Br(K0L -> pi0,nu,nubar) = 0.3000E-10 Total N(K0L) after spoiler=0.1271E+16 Total neutron interactions=-1.000 Mode Generated Effy(wt) N/N(Kpnn) Nev(mode) dNeV(mode) Who kpnn 0.1200E+07 0.7595E-03 1.000 28.95 0.2362 MZ kpnn 0.1200E+07 0.3043E-02 1.000 116.0 0.4523 AvdS kpnn 0.1200E+07 0.2549E-02 1.000 97.16 0.4306 AK basic kpnn 0.1200E+07 0.1678E-02 1.000 63.98 0.3497 AK loose kpnn 0.1200E+07 0.1480E-02 1.000 56.44 0.3285 AK lominal kpnn 0.1200E+07 0.1015E-02 1.000 38.69 0.2717 AK tight kpnn 0.1200E+07 0.6716E-03 1.000 25.60 0.2211 AK tighter kpnn 0.1200E+07 0.5820E-03 1.000 22.19 0.2059 AK tightest *ke3g 0.2200E+07 0.3964E-13 0.6297E-02 0.1823 0.7804E-02 MZ *ke3g 0.2200E+07 0.1385E-12 0.5492E-02 0.6372 0.1639E-01 AvdS *ke3g 0.2200E+07 0.1970E-12 0.9325E-02 0.9060 0.1936E-01 AK basic *ke3g 0.2200E+07 0.8480E-13 0.6097E-02 0.3901 0.1284E-01 AK loose *ke3g 0.2200E+07 0.7319E-13 0.5965E-02 0.3367 0.1144E-01 AK lominal *ke3g 0.2200E+07 0.5351E-13 0.6363E-02 0.2462 0.9951E-02 AK tight *ke3g 0.2200E+07 0.3471E-13 0.6237E-02 0.1597 0.7609E-02 AK tighter *ke3g 0.2200E+07 0.3082E-13 0.6389E-02 0.1418 0.7197E-02 AK tightest *ke4 0.4000E+07 0.7666E-11 0.1743E-01 0.5046 0.1969 MZ *ke4 0.4000E+07 0.1287E-10 0.7301E-02 0.8471 0.2552 AvdS *ke4 0.4000E+07 0.2622E-10 0.1776E-01 1.726 0.3695 AK basic *ke4 0.4000E+07 0.1988E-10 0.2045E-01 1.308 0.3304 AK loose *ke4 0.4000E+07 0.1484E-10 0.1731E-01 0.9771 0.2713 AK lominal *ke4 0.4000E+07 0.1211E-10 0.2061E-01 0.7972 0.2432 AK tight *ke4 0.4000E+07 0.7814E-11 0.2009E-01 0.5144 0.1974 AK tighter *ke4 0.4000E+07 0.7566E-11 0.2245E-01 0.4980 0.1969 AK tightest *kcp3 0.4000E+07 0.4745E-14 0.2613E-01 0.7567 0.4942E-01 MZ *kcp3 0.4000E+07 0.1088E-13 0.1496E-01 1.736 0.6070E-01 AvdS *kcp3 0.4000E+07 0.1499E-12 0.2461 23.91 0.2942 AK basic *kcp3 0.4000E+07 0.1591E-13 0.3965E-01 2.537 0.9384E-01 AK loose *kcp3 0.4000E+07 0.1590E-13 0.4492E-01 2.535 0.9384E-01 AK lominal *kcp3 0.4000E+07 0.9062E-14 0.3735E-01 1.445 0.6930E-01 AK tight *kcp3 0.4000E+07 0.4277E-14 0.2664E-01 0.6821 0.4795E-01 AK tighter *kcp3 0.4000E+07 0.2805E-14 0.2016E-01 0.4473 0.3742E-01 AK tightest Key N(Kpnn)/B d(S/B) Nev dNeV bkgd 20.06 2.828 1.444 0.2032 MZ bkgd 36.03 2.945 3.220 0.2629 AvdS bkgd 3.661 0.6719E-01 26.54 0.4728 AK basic bkgd 15.11 1.229 4.235 0.3437 AK loose bkgd 14.66 1.098 3.849 0.2873 AK lominal bkgd 15.55 1.585 2.489 0.2531 AK tight bkgd 18.88 2.835 1.356 0.2033 AK tighter bkgd 20.41 3.771 1.087 0.2006 AK tightest IgnoreDIF=false, vetogate=(-4.,8.)ns, cpv at (140,50)cm in decay region, using betamax Log file /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.kpnn.ke3g.ke4.kcp3.aspect1.bryman.100804.1422.log List of ntuples 4126 Aug 10 12:29 kpnn.ke3g.ke4.kcp3.aspect1.bryman.list Updated Akira OFFLINE fcn being used Use Andries van der Schaaf`s in JCUTS Using CV model 3 with PV boost Using CV model 3 with CV wrapper thickness= 1.00 mg/cm^2, Energy threshold=0.500E-01 MeV Using CV model 3 with OPTIMISTIC INEFFYS Charged particle veto gate in ns = (-4.00 , 8.00 ) Process ONLY 2g fits Using AvdS photon veto with threshold= 3.000 MeV and exponent= 1.800 Use energy-dependent ineffy catcher model 4 Use charge veto approximation for annihilating e+ Allow vetoes thru US beam pipe in US wall. Thickness(US veto)= 80.00 X0(US veto)= 17.12 RL(US veto) in cm= 4.67 Require cos(Glo,Ghi) < 0.940 to veto on lower energy gamma from e+ annihilation Supplement Zeller cuts with Konaka wrap-around cuts Supplement Zeller cuts with Konaka slow Kpi3 cuts Vacuum vessel radius= 115.00 Z(US endplate)=1025.00 Z(DS endplate)=1414.00 1090.00 < Z(recon K0L) < 1365.00 X_0(PR)= 50.0 N(rad.lens in PR)= 2.0 AK fiducial variables: zcut1= 1090.0000 AK fiducial variables: zcut2= 1365.0000 AK fiducial variables: zcal = 1557.6666 AK fiducial variables: zhole= 1515.0000 AK fiducial variables: zprerad= 1415.0000 AK fiducial variables: zprerad2= 1515.0000 AK fiducial variables: yang = 0.0025 AK fiducial variables: radlen= 50.0000 Times(s): Spill= 2.400 Interspill= 2.300 Running time=0.4320E+08 Running time(hrs)=0.1200E+05 Using Br(K0L -> pi0,nu,nubar) = 0.3000E-10 Total N(K0L) after spoiler=0.1271E+16 Total neutron interactions=-1.000 Mode Generated Effy(wt) N/N(Kpnn) Nev(mode) dNeV(mode) Who kpnn 0.1200E+07 0.7595E-03 1.000 28.95 0.2362 MZ kpnn 0.1200E+07 0.3043E-02 1.000 116.0 0.4523 AvdS kpnn 0.1200E+07 0.2549E-02 1.000 97.16 0.4306 AK basic kpnn 0.1200E+07 0.1678E-02 1.000 63.98 0.3497 AK loose kpnn 0.1200E+07 0.1480E-02 1.000 56.44 0.3285 AK lominal kpnn 0.1200E+07 0.1015E-02 1.000 38.69 0.2717 AK tight kpnn 0.1200E+07 0.6716E-03 1.000 25.60 0.2211 AK tighter kpnn 0.1200E+07 0.5820E-03 1.000 22.19 0.2059 AK tightest *ke3g 0.2200E+07 0.1550E-10 2.462 71.29 18.29 MZ *ke3g 0.2200E+07 0.2308E-10 0.9151 106.2 23.43 AvdS *ke3g 0.2200E+07 0.5463E-10 2.586 251.3 40.31 AK basic *ke3g 0.2200E+07 0.2507E-10 1.803 115.3 24.06 AK loose *ke3g 0.2200E+07 0.2442E-10 1.990 112.3 23.96 AK lominal *ke3g 0.2200E+07 0.2001E-10 2.379 92.04 22.01 AK tight *ke3g 0.2200E+07 0.1595E-10 2.866 73.38 19.56 AK tighter *ke3g 0.2200E+07 0.1379E-10 2.858 63.42 17.63 AK tightest *ke4 0.4000E+07 0.7650E-10 0.1739 5.036 3.907 MZ *ke4 0.4000E+07 0.1804E-07 10.23 1187. 1180. AvdS *ke4 0.4000E+07 0.1041E-09 0.7051E-01 6.851 3.920 AK basic *ke4 0.4000E+07 0.9206E-10 0.9472E-01 6.060 3.916 AK loose *ke4 0.4000E+07 0.8686E-10 0.1013 5.717 3.912 AK lominal *ke4 0.4000E+07 0.8178E-10 0.1391 5.383 3.910 AK tight *ke4 0.4000E+07 0.7531E-10 0.1936 4.957 3.907 AK tighter *ke4 0.4000E+07 0.7330E-10 0.2174 4.825 3.906 AK tightest *kcp3 0.4000E+07 0.3077E-11 16.95 490.7 253.5 MZ *kcp3 0.4000E+07 0.4038E-11 5.551 644.0 320.6 AvdS *kcp3 0.4000E+07 0.3863E-07 0.6340E+05 0.6160E+07 0.4344E+07 AK basic *kcp3 0.4000E+07 0.1926E-07 0.4800E+05 0.3071E+07 0.3069E+07 AK loose *kcp3 0.4000E+07 0.1926E-07 0.5441E+05 0.3071E+07 0.3069E+07 AK lominal *kcp3 0.4000E+07 0.1925E-07 0.7935E+05 0.3070E+07 0.3069E+07 AK tight *kcp3 0.4000E+07 0.1925E-07 0.1199E+06 0.3070E+07 0.3069E+07 AK tighter *kcp3 0.4000E+07 0.2200E-11 15.81 350.8 220.9 AK tightest all charged particle rates are high and apparently dominated by a few high weight events. ke4 rate dominated by event (EVTwt=0.7173E-01) with e+ into US hole (ineffy=1) and pi- dif with dtdx=9.3ns also have USveto WARNING: trk 2 should not have hit plane= 6 Vstart= 173. -111. 0.102E+04 Vend= 307. -189. 935. Vpipe= 307. -189. 935. this came from select_signal.f . should not call usveto from select_signal, remove it source/select_signal.f - modified "remove usveto usage" IgnoreDIF=false, vetogate=(-4.,12.)ns, cpv at (140,50)cm in decay region, using betamax Log file /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.kpnn.ke3g.ke4.kcp3.aspect1.bryman.100804.1640.log List of ntuples 4126 Aug 10 12:29 kpnn.ke3g.ke4.kcp3.aspect1.bryman.list Updated Akira OFFLINE fcn being used Use Andries van der Schaaf`s in JCUTS Using CV model 3 with PV boost Using CV model 3 with CV wrapper thickness= 1.00 mg/cm^2, Energy threshold=0.500E-01 MeV Using CV model 3 with OPTIMISTIC INEFFYS Charged particle veto gate in ns = (-4.00 , 12.0 ) Process ONLY 2g fits Using AvdS photon veto with threshold= 3.000 MeV and exponent= 1.800 Use energy-dependent ineffy catcher model 4 Use charge veto approximation for annihilating e+ Allow vetoes thru US beam pipe in US wall. Thickness(US veto)= 80.00 X0(US veto)= 17.12 RL(US veto) in cm= 4.67 Require cos(Glo,Ghi) < 0.940 to veto on lower energy gamma from e+ annihilation Supplement Zeller cuts with Konaka wrap-around cuts Supplement Zeller cuts with Konaka slow Kpi3 cuts Vacuum vessel radius= 115.00 Z(US endplate)=1025.00 Z(DS endplate)=1414.00 1090.00 < Z(recon K0L) < 1365.00 X_0(PR)= 50.0 N(rad.lens in PR)= 2.0 AK fiducial variables: zcut1= 1090.0000 AK fiducial variables: zcut2= 1365.0000 AK fiducial variables: zcal = 1557.6666 AK fiducial variables: zhole= 1515.0000 AK fiducial variables: zprerad= 1415.0000 AK fiducial variables: zprerad2= 1515.0000 AK fiducial variables: yang = 0.0025 AK fiducial variables: radlen= 50.0000 Times(s): Spill= 2.400 Interspill= 2.300 Running time=0.4320E+08 Running time(hrs)=0.1200E+05 Using Br(K0L -> pi0,nu,nubar) = 0.3000E-10 Total N(K0L) after spoiler=0.1271E+16 Total neutron interactions=-1.000 Mode Generated Effy(wt) N/N(Kpnn) Nev(mode) dNeV(mode) Who kpnn 0.1200E+07 0.7595E-03 1.000 28.95 0.2362 MZ kpnn 0.1200E+07 0.3043E-02 1.000 116.0 0.4523 AvdS kpnn 0.1200E+07 0.2549E-02 1.000 97.16 0.4306 AK basic kpnn 0.1200E+07 0.1678E-02 1.000 63.98 0.3497 AK loose kpnn 0.1200E+07 0.1480E-02 1.000 56.44 0.3285 AK lominal kpnn 0.1200E+07 0.1015E-02 1.000 38.69 0.2717 AK tight kpnn 0.1200E+07 0.6716E-03 1.000 25.60 0.2211 AK tighter kpnn 0.1200E+07 0.5820E-03 1.000 22.19 0.2059 AK tightest *ke3g 0.2200E+07 0.6811E-11 1.082 31.33 13.66 MZ *ke3g 0.2200E+07 0.1164E-10 0.4615 53.55 16.97 AvdS *ke3g 0.2200E+07 0.2417E-10 1.144 111.2 28.65 AK basic *ke3g 0.2200E+07 0.1164E-10 0.8372 53.56 16.51 AK loose *ke3g 0.2200E+07 0.1140E-10 0.9292 52.44 16.47 AK lominal *ke3g 0.2200E+07 0.8906E-11 1.059 40.97 14.45 AK tight *ke3g 0.2200E+07 0.6791E-11 1.220 31.24 13.68 AK tighter *ke3g 0.2200E+07 0.6432E-11 1.334 29.59 13.58 AK tightest *ke4 0.4000E+07 0.1269E-10 0.2885E-01 0.8353 0.2276 MZ *ke4 0.4000E+07 0.3793E-10 0.2152E-01 2.496 1.186 AvdS *ke4 0.4000E+07 0.3476E-10 0.2355E-01 2.288 0.3888 AK basic *ke4 0.4000E+07 0.2585E-10 0.2660E-01 1.702 0.3497 AK loose *ke4 0.4000E+07 0.2078E-10 0.2423E-01 1.368 0.2946 AK lominal *ke4 0.4000E+07 0.1704E-10 0.2899E-01 1.121 0.2685 AK tight *ke4 0.4000E+07 0.1207E-10 0.3103E-01 0.7944 0.2268 AK tighter *ke4 0.4000E+07 0.1032E-10 0.3062E-01 0.6793 0.2050 AK tightest *kcp3 0.4000E+07 0.4074E-12 2.244 64.97 45.28 MZ *kcp3 0.4000E+07 0.2168E-12 0.2980 34.57 32.22 AvdS *kcp3 0.4000E+07 0.2336E-10 38.35 3726. 770.4 AK basic *kcp3 0.4000E+07 0.3542E-11 8.829 564.9 288.0 AK loose *kcp3 0.4000E+07 0.3542E-11 10.01 564.9 288.0 AK lominal *kcp3 0.4000E+07 0.1629E-11 6.715 259.8 198.9 AK tight *kcp3 0.4000E+07 0.4067E-12 2.533 64.86 45.28 AK tighter *kcp3 0.4000E+07 0.4049E-12 2.910 64.58 45.28 AK tightest ke3g and kcp3 dominated by a few high weight events, ke4 undercontrol. kcp3 evt EVTwt=0.8082E-06, KE(pi+) = 4.3MeV, dtdx=17.3ns, pi- DIF with KE(mu-)=7.0MeV, dtdx=5.8ns ke3g evts EVTwt=0.3426E-05, pi- DIF, KE(mu-)=7.85, dtdx=13.3 EVTwt=0.1531E-05, pi- DIF, KE(mu-)=4.4, dtdx=12.9 EVTwt=0.2754E-05, pi- DIF, KE(mu-)=116.1, dtdx=-7.3 KL death 28,-3,1129 pi-death 44,-39,1168 KE=183 mu-death 88,-200,1363 EVTwt=0.1695E-05, pi- DIF, KE(mu-)=6.9, dtdx=14.8 EVTwt=0.1318E-05, pi- DIF, KE(mu-)=4.0, dtdx=18.1 EVTwt=0.2315E-05, pi- DIF, KE(mu-)=4.8, dtdx=13.44 EVTwt=0.2713E-05, KE(pi-)=1.7, dtdx=14.0 EVTwt=0.4926E-05, pi- DIF, KE(mu-)=3.2, dtdx=25.4 i wonder if neutron generation suffered from same optimization problem..? % simple.run.fastmc.script control.dat.remove.ybeam.constraint detector.22.dat & NOTE EXECUTABLE exe/fastmc.exe.TEST NOTE EXECUTABLE /e787u/djaffe/KOPIO/fastmc/scripts/../geometry/detector.22.dat control.dat.remove.ybeam.constraint exe/fastmc.exe.TEST Logfile name is /e787u/djaffe/KOPIO/fastmc/scripts/../log/fastmc.control.dat.remove.ybeam.constraint.detector.22.dat.100804.1459.log /u1/djaffe/kopio/fastmc/ntuples/nnpi0.y6.75.z1414.rzn seems that optimization problem also affected nnpi0 generation. how??? things are OK now, generate large kpnn (100K), unskimmed sample to determine resolutions: /e787u/djaffe/KOPIO/fastmc/scripts/../log/fastmc.control.dat.remove.ybeam.constraint.detector.22.dat.100804.1532.log /u1/djaffe/kopio/fastmc/ntuples/kpnn.with.ybeam.constraint.a.rzn IgnoreDIF=false, vetogate=(-4.,16.)ns, cpv at (140,50)cm in decay region, using betamax Log file /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.kpnn.ke3g.ke4.kcp3.aspect1.bryman.100804.2126.log List of ntuples 4126 Aug 10 12:29 kpnn.ke3g.ke4.kcp3.aspect1.bryman.list Updated Akira OFFLINE fcn being used Use Andries van der Schaaf`s in JCUTS Using CV model 3 with PV boost Using CV model 3 with CV wrapper thickness= 1.00 mg/cm^2, Energy threshold=0.500E-01 MeV Using CV model 3 with OPTIMISTIC INEFFYS Charged particle veto gate in ns = (-4.00 , 16.0 ) Process ONLY 2g fits Using AvdS photon veto with threshold= 3.000 MeV and exponent= 1.800 Use energy-dependent ineffy catcher model 4 Use charge veto approximation for annihilating e+ Allow vetoes thru US beam pipe in US wall. Thickness(US veto)= 80.00 X0(US veto)= 17.12 RL(US veto) in cm= 4.67 Require cos(Glo,Ghi) < 0.940 to veto on lower energy gamma from e+ annihilation Supplement Zeller cuts with Konaka wrap-around cuts Supplement Zeller cuts with Konaka slow Kpi3 cuts Vacuum vessel radius= 115.00 Z(US endplate)=1025.00 Z(DS endplate)=1414.00 1090.00 < Z(recon K0L) < 1365.00 X_0(PR)= 50.0 N(rad.lens in PR)= 2.0 AK fiducial variables: zcut1= 1090.0000 AK fiducial variables: zcut2= 1365.0000 AK fiducial variables: zcal = 1557.6666 AK fiducial variables: zhole= 1515.0000 AK fiducial variables: zprerad= 1415.0000 AK fiducial variables: zprerad2= 1515.0000 AK fiducial variables: yang = 0.0025 AK fiducial variables: radlen= 50.0000 Times(s): Spill= 2.400 Interspill= 2.300 Running time=0.4320E+08 Running time(hrs)=0.1200E+05 Using Br(K0L -> pi0,nu,nubar) = 0.3000E-10 Total N(K0L) after spoiler=0.1271E+16 Total neutron interactions=-1.000 Mode Generated Effy(wt) N/N(Kpnn) Nev(mode) dNeV(mode) Who kpnn 0.1200E+07 0.7595E-03 1.000 28.95 0.2362 MZ kpnn 0.1200E+07 0.3043E-02 1.000 116.0 0.4523 AvdS kpnn 0.1200E+07 0.2549E-02 1.000 97.16 0.4306 AK basic kpnn 0.1200E+07 0.1678E-02 1.000 63.98 0.3497 AK loose kpnn 0.1200E+07 0.1480E-02 1.000 56.44 0.3285 AK lominal kpnn 0.1200E+07 0.1015E-02 1.000 38.69 0.2717 AK tight kpnn 0.1200E+07 0.6716E-03 1.000 25.60 0.2211 AK tighter kpnn 0.1200E+07 0.5820E-03 1.000 22.19 0.2059 AK tightest *ke3g 0.2200E+07 0.3899E-11 0.6195 17.94 10.98 MZ *ke3g 0.2200E+07 0.5967E-11 0.2366 27.45 12.55 AvdS *ke3g 0.2200E+07 0.1110E-10 0.5257 51.07 16.65 AK basic *ke3g 0.2200E+07 0.6443E-11 0.4633 29.64 12.10 AK loose *ke3g 0.2200E+07 0.6198E-11 0.5052 28.51 12.05 AK lominal *ke3g 0.2200E+07 0.5272E-11 0.6268 24.25 11.61 AK tight *ke3g 0.2200E+07 0.3880E-11 0.6971 17.85 11.00 AK tighter *ke3g 0.2200E+07 0.3521E-11 0.7299 16.20 10.88 AK tightest *ke4 0.4000E+07 0.1166E-10 0.2650E-01 0.7672 0.2273 MZ *ke4 0.4000E+07 0.3594E-10 0.2039E-01 2.365 1.186 AvdS *ke4 0.4000E+07 0.3203E-10 0.2170E-01 2.109 0.3880 AK basic *ke4 0.4000E+07 0.2428E-10 0.2498E-01 1.598 0.3494 AK loose *ke4 0.4000E+07 0.1923E-10 0.2242E-01 1.265 0.2942 AK lominal *ke4 0.4000E+07 0.1597E-10 0.2717E-01 1.051 0.2682 AK tight *ke4 0.4000E+07 0.1113E-10 0.2862E-01 0.7328 0.2265 AK tighter *ke4 0.4000E+07 0.9388E-11 0.2785E-01 0.6180 0.2047 AK tightest *kcp3 0.4000E+07 0.2079E-12 1.145 33.15 32.22 MZ *kcp3 0.4000E+07 0.2168E-12 0.2980 34.57 32.22 AvdS *kcp3 0.4000E+07 0.8087E-11 13.27 1290. 406.5 AK basic *kcp3 0.4000E+07 0.2230E-12 0.5559 35.57 32.22 AK loose *kcp3 0.4000E+07 0.2230E-12 0.6302 35.56 32.22 AK lominal *kcp3 0.4000E+07 0.2151E-12 0.8866 34.30 32.22 AK tight *kcp3 0.4000E+07 0.2072E-12 1.291 33.04 32.22 AK tighter *kcp3 0.4000E+07 0.2054E-12 1.477 32.76 32.22 AK tightest ---- 11aug04 a CPVetoGate that depends on Mnu^2 would retain the highest acceptance while rejecting the nasty slow tracks. see veto.gate.vs.mnu2.ke3g.ke4.kcp3.ps . want to see distributions when betamax=1. source/flags.inc - modified "add UseBetaMax" source/gethittime.f - modified "add UseBetaMax" source/fillanal.f - modified "use CVHitTime from common" source/bookanal.f - modified "set titles accding to UseBetaMax" source/setupanal.f - modified "add UseBetaMax" test % analysis.script one.ke3g.ke4.kcp3.aspect1.bryman.list ../geometry/detector.22.dat & Log file /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.one.ke3g.ke4.kcp3.aspect1.bryman.110804.1432.log List of ntuples 109 Aug 8 02:03 one.ke3g.ke4.kcp3.aspect1.bryman.list Updated Akira OFFLINE fcn being used Use Andries van der Schaaf`s in JCUTS Using CV model 3 with PV boost Using CV model 3 with CV wrapper thickness= 1.00 mg/cm^2, Energy threshold=0.500E-01 MeV Using CV model 3 with OPTIMISTIC INEFFYS Charged particle veto gate in ns = (-4.00 , 16.0 ) Use beta=1 for chgd tracks for evaluating CPV ineffy Process ONLY 2g fits Using AvdS photon veto with threshold= 3.000 MeV and exponent= 1.800 Use energy-dependent ineffy catcher model 4 Use charge veto approximation for annihilating e+ Allow vetoes thru US beam pipe in US wall. Thickness(US veto)= 80.00 X0(US veto)= 17.12 RL(US veto) in cm= 4.67 Require cos(Glo,Ghi) < 0.940 to veto on lower energy gamma from e+ annihilation Supplement Zeller cuts with Konaka wrap-around cuts Supplement Zeller cuts with Konaka slow Kpi3 cuts Vacuum vessel radius= 115.00 Z(US endplate)=1025.00 Z(DS endplate)=1414.00 1090.00 < Z(recon K0L) < 1365.00 X_0(PR)= 50.0 N(rad.lens in PR)= 2.0 AK fiducial variables: zcut1= 1090.0000 AK fiducial variables: zcut2= 1365.0000 AK fiducial variables: zcal = 1557.6666 AK fiducial variables: zhole= 1515.0000 AK fiducial variables: zprerad= 1415.0000 AK fiducial variables: zprerad2= 1515.0000 AK fiducial variables: yang = 0.0025 AK fiducial variables: radlen= 50.0000 Times(s): Spill= 2.400 Interspill= 2.300 Running time=0.4320E+08 Running time(hrs)=0.1200E+05 Using Br(K0L -> pi0,nu,nubar) = 0.3000E-10 Total N(K0L) after spoiler=0.1271E+16 Total neutron interactions=-1.000 Mode Generated Effy(wt) N/N(Kpnn) Nev(mode) dNeV(mode) Who *ke3g 0.1000E+06 0.5496E-13 0.000 0.2528 0.4193E-01 MZ *ke3g 0.1000E+06 0.1560E-12 0.000 0.7177 0.6938E-01 AvdS *ke3g 0.1000E+06 0.8024E-11 0.000 36.91 35.92 AK basic *ke3g 0.1000E+06 0.7917E-11 0.000 36.42 35.92 AK loose *ke3g 0.1000E+06 0.7900E-11 0.000 36.34 35.92 AK lominal *ke3g 0.1000E+06 0.7870E-11 0.000 36.20 35.92 AK tight *ke3g 0.1000E+06 0.7854E-11 0.000 36.13 35.92 AK tighter *ke3g 0.1000E+06 0.3986E-13 0.000 0.1833 0.3533E-01 AK tightest *ke4 0.1000E+06 0.5959E-11 0.000 0.3923 0.2676 MZ *ke4 0.1000E+06 0.7109E-11 0.000 0.4679 0.2720 AvdS *ke4 0.1000E+06 0.2200E-10 0.000 1.448 0.8093 AK basic *ke4 0.1000E+06 0.8097E-11 0.000 0.5330 0.2820 AK loose *ke4 0.1000E+06 0.8093E-11 0.000 0.5327 0.2820 AK lominal *ke4 0.1000E+06 0.7188E-11 0.000 0.4731 0.2778 AK tight *ke4 0.1000E+06 0.5985E-11 0.000 0.3940 0.2676 AK tighter *ke4 0.1000E+06 0.5912E-11 0.000 0.3892 0.2676 AK tightest *kcp3 0.1000E+06 0.4617E-14 0.000 0.7363 0.2681 MZ *kcp3 0.1000E+06 0.1410E-13 0.000 2.249 0.5104 AvdS *kcp3 0.1000E+06 0.2322E-12 0.000 37.03 12.31 AK basic *kcp3 0.1000E+06 0.2127E-13 0.000 3.392 0.6844 AK loose *kcp3 0.1000E+06 0.2127E-13 0.000 3.392 0.6844 AK lominal *kcp3 0.1000E+06 0.1084E-13 0.000 1.728 0.4618 AK tight *kcp3 0.1000E+06 0.5931E-14 0.000 0.9459 0.3808 AK tighter *kcp3 0.1000E+06 0.4026E-14 0.000 0.6421 0.3338 AK tightest rates seem reasonable! set CPVetoGate=-4e20,+16e20 % analysis.script one.ke3g.ke4.kcp3.aspect1.bryman.list ../geometry/detector.22.dat & Log file /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.one.ke3g.ke4.kcp3.aspect1.bryman.110804.1445.log Finish time is Wed Aug 11 14:47:30 EDT 2004 List of ntuples 109 Aug 8 02:03 one.ke3g.ke4.kcp3.aspect1.bryman.list Updated Akira OFFLINE fcn being used Use Andries van der Schaaf`s in JCUTS Using CV model 3 with PV boost Using CV model 3 with CV wrapper thickness= 1.00 mg/cm^2, Energy threshold=0.500E-01 MeV Using CV model 3 with OPTIMISTIC INEFFYS Charged particle veto gate in ns = (-.400E+21 ,0.160E+22) Use beta=1 for chgd tracks for evaluating CPV ineffy Process ONLY 2g fits Using AvdS photon veto with threshold= 3.000 MeV and exponent= 1.800 Use energy-dependent ineffy catcher model 4 Use charge veto approximation for annihilating e+ Allow vetoes thru US beam pipe in US wall. Thickness(US veto)= 80.00 X0(US veto)= 17.12 RL(US veto) in cm= 4.67 Require cos(Glo,Ghi) < 0.940 to veto on lower energy gamma from e+ annihilation Supplement Zeller cuts with Konaka wrap-around cuts Supplement Zeller cuts with Konaka slow Kpi3 cuts Vacuum vessel radius= 115.00 Z(US endplate)=1025.00 Z(DS endplate)=1414.00 1090.00 < Z(recon K0L) < 1365.00 X_0(PR)= 50.0 N(rad.lens in PR)= 2.0 AK fiducial variables: zcut1= 1090.0000 AK fiducial variables: zcut2= 1365.0000 AK fiducial variables: zcal = 1557.6666 AK fiducial variables: zhole= 1515.0000 AK fiducial variables: zprerad= 1415.0000 AK fiducial variables: zprerad2= 1515.0000 AK fiducial variables: yang = 0.0025 AK fiducial variables: radlen= 50.0000 Times(s): Spill= 2.400 Interspill= 2.300 Running time=0.4320E+08 Running time(hrs)=0.1200E+05 Using Br(K0L -> pi0,nu,nubar) = 0.3000E-10 Total N(K0L) after spoiler=0.1271E+16 Total neutron interactions=-1.000 Mode Generated Effy(wt) N/N(Kpnn) Nev(mode) dNeV(mode) Who *ke3g 0.1000E+06 0.5496E-13 0.000 0.2528 0.4193E-01 MZ *ke3g 0.1000E+06 0.1560E-12 0.000 0.7177 0.6938E-01 AvdS *ke3g 0.1000E+06 0.2165E-12 0.000 0.9959 0.8640E-01 AK basic *ke3g 0.1000E+06 0.1089E-12 0.000 0.5008 0.6121E-01 AK loose *ke3g 0.1000E+06 0.9190E-13 0.000 0.4227 0.5524E-01 AK lominal *ke3g 0.1000E+06 0.6233E-13 0.000 0.2867 0.4508E-01 AK tight *ke3g 0.1000E+06 0.4636E-13 0.000 0.2132 0.3992E-01 AK tighter *ke3g 0.1000E+06 0.3986E-13 0.000 0.1833 0.3533E-01 AK tightest *ke4 0.1000E+06 0.4293E-12 0.000 0.2826E-01 0.1031E-01 MZ *ke4 0.1000E+06 0.8501E-12 0.000 0.5596E-01 0.1415E-01 AvdS *ke4 0.1000E+06 0.1304E-10 0.000 0.8581 0.7544 AK basic *ke4 0.1000E+06 0.7073E-12 0.000 0.4656E-01 0.1291E-01 AK loose *ke4 0.1000E+06 0.7032E-12 0.000 0.4629E-01 0.1291E-01 AK lominal *ke4 0.1000E+06 0.5271E-12 0.000 0.3470E-01 0.1112E-01 AK tight *ke4 0.1000E+06 0.4553E-12 0.000 0.2997E-01 0.1050E-01 AK tighter *ke4 0.1000E+06 0.3823E-12 0.000 0.2516E-01 0.9988E-02 AK tightest *kcp3 0.1000E+06 0.4617E-14 0.000 0.7363 0.2681 MZ *kcp3 0.1000E+06 0.1410E-13 0.000 2.249 0.5104 AvdS *kcp3 0.1000E+06 0.1559E-12 0.000 24.86 1.885 AK basic *kcp3 0.1000E+06 0.2127E-13 0.000 3.392 0.6844 AK loose *kcp3 0.1000E+06 0.2127E-13 0.000 3.392 0.6844 AK lominal *kcp3 0.1000E+06 0.1084E-13 0.000 1.728 0.4618 AK tight *kcp3 0.1000E+06 0.5931E-14 0.000 0.9459 0.3808 AK tighter *kcp3 0.1000E+06 0.4026E-14 0.000 0.6421 0.3338 AK tightest OK. big job Log file /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.kpnn.ke3g.ke4.kcp3.aspect1.bryman.110804.1450.log List of ntuples 4126 Aug 10 12:29 kpnn.ke3g.ke4.kcp3.aspect1.bryman.list Updated Akira OFFLINE fcn being used Use Andries van der Schaaf`s in JCUTS Using CV model 3 with PV boost Using CV model 3 with CV wrapper thickness= 1.00 mg/cm^2, Energy threshold=0.500E-01 MeV Using CV model 3 with OPTIMISTIC INEFFYS Charged particle veto gate in ns = (-.400E+21 ,0.160E+22) Use beta=1 for chgd tracks for evaluating CPV ineffy Process ONLY 2g fits Using AvdS photon veto with threshold= 3.000 MeV and exponent= 1.800 Use energy-dependent ineffy catcher model 4 Use charge veto approximation for annihilating e+ Allow vetoes thru US beam pipe in US wall. Thickness(US veto)= 80.00 X0(US veto)= 17.12 RL(US veto) in cm= 4.67 Require cos(Glo,Ghi) < 0.940 to veto on lower energy gamma from e+ annihilation Supplement Zeller cuts with Konaka wrap-around cuts Supplement Zeller cuts with Konaka slow Kpi3 cuts Vacuum vessel radius= 115.00 Z(US endplate)=1025.00 Z(DS endplate)=1414.00 1090.00 < Z(recon K0L) < 1365.00 X_0(PR)= 50.0 N(rad.lens in PR)= 2.0 AK fiducial variables: zcut1= 1090.0000 AK fiducial variables: zcut2= 1365.0000 AK fiducial variables: zcal = 1557.6666 AK fiducial variables: zhole= 1515.0000 AK fiducial variables: zprerad= 1415.0000 AK fiducial variables: zprerad2= 1515.0000 AK fiducial variables: yang = 0.0025 AK fiducial variables: radlen= 50.0000 Times(s): Spill= 2.400 Interspill= 2.300 Running time=0.4320E+08 Running time(hrs)=0.1200E+05 Using Br(K0L -> pi0,nu,nubar) = 0.3000E-10 Total N(K0L) after spoiler=0.1271E+16 Total neutron interactions=-1.000 Mode Generated Effy(wt) N/N(Kpnn) Nev(mode) dNeV(mode) Who kpnn 0.1200E+07 0.7595E-03 1.000 28.95 0.2362 MZ kpnn 0.1200E+07 0.3043E-02 1.000 116.0 0.4523 AvdS kpnn 0.1200E+07 0.2549E-02 1.000 97.16 0.4306 AK basic kpnn 0.1200E+07 0.1678E-02 1.000 63.98 0.3497 AK loose kpnn 0.1200E+07 0.1480E-02 1.000 56.44 0.3285 AK lominal kpnn 0.1200E+07 0.1015E-02 1.000 38.69 0.2717 AK tight kpnn 0.1200E+07 0.6716E-03 1.000 25.60 0.2211 AK tighter kpnn 0.1200E+07 0.5820E-03 1.000 22.19 0.2059 AK tightest *ke3g 0.2200E+07 0.4247E-13 0.6747E-02 0.1953 0.8020E-02 MZ *ke3g 0.2200E+07 0.1479E-12 0.5865E-02 0.6805 0.1690E-01 AvdS *ke3g 0.2200E+07 0.2127E-12 0.1007E-01 0.9787 0.2003E-01 AK basic *ke3g 0.2200E+07 0.9163E-13 0.6588E-02 0.4215 0.1324E-01 AK loose *ke3g 0.2200E+07 0.7950E-13 0.6480E-02 0.3657 0.1185E-01 AK lominal *ke3g 0.2200E+07 0.5809E-13 0.6907E-02 0.2672 0.1029E-01 AK tight *ke3g 0.2200E+07 0.3712E-13 0.6670E-02 0.1708 0.7810E-02 AK tighter *ke3g 0.2200E+07 0.3297E-13 0.6835E-02 0.1517 0.7392E-02 AK tightest *ke4 0.4000E+07 0.1056E-10 0.2400E-01 0.6951 0.2267 MZ *ke4 0.4000E+07 0.1654E-10 0.9381E-02 1.088 0.2846 AvdS *ke4 0.4000E+07 0.2996E-10 0.2030E-01 1.972 0.3875 AK basic *ke4 0.4000E+07 0.2280E-10 0.2346E-01 1.501 0.3490 AK loose *ke4 0.4000E+07 0.1776E-10 0.2071E-01 1.169 0.2937 AK lominal *ke4 0.4000E+07 0.1501E-10 0.2554E-01 0.9881 0.2679 AK tight *ke4 0.4000E+07 0.1039E-10 0.2672E-01 0.6841 0.2262 AK tighter *ke4 0.4000E+07 0.8687E-11 0.2577E-01 0.5718 0.2044 AK tightest *kcp3 0.4000E+07 0.5831E-14 0.3211E-01 0.9298 0.5485E-01 MZ *kcp3 0.4000E+07 0.1281E-13 0.1761E-01 2.043 0.6578E-01 AvdS *kcp3 0.4000E+07 0.1767E-12 0.2901 28.19 0.3216 AK basic *kcp3 0.4000E+07 0.1896E-13 0.4726E-01 3.023 0.1032 AK loose *kcp3 0.4000E+07 0.1895E-13 0.5354E-01 3.022 0.1032 AK lominal *kcp3 0.4000E+07 0.1104E-13 0.4549E-01 1.760 0.7675E-01 AK tight *kcp3 0.4000E+07 0.5154E-14 0.3211E-01 0.8220 0.5242E-01 AK tighter *kcp3 0.4000E+07 0.3398E-14 0.2443E-01 0.5420 0.4079E-01 AK tightest make modifications to use Mnu2-dependent CP veto gate. introduce new global variables and calculate them, etc. source/analvar.f - modified "add Mnu2(Nrecon)" source/getcandwt.f - modified "calculate Mnu2(Nrecon), add UseMnu2depCPVgate" source/fillanal.f - modified "use Mnu2 from common" source/setupanal.f - modified "add UseMnu2depCPVgate" source/getcpvetogate.f - new "calculate Mnu2-dependent CPVeto gate width" source/Makefile.anal - modified "add getcpvetogate" source/select_signal.f - modified "report Mnu2,CVgate in hi wt evt dump" need to recompile and test all this stuff when current job 110804.1450 is done test Log file /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.one.ke3g.ke4.kcp3.aspect1.bryman.110804.2101.log OK now test with UseMnu2depCPVgate=TRUE /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.one.ke3g.ke4.kcp3.aspect1.bryman.110804.2105.log List of ntuples 109 Aug 8 02:03 one.ke3g.ke4.kcp3.aspect1.bryman.list Updated Akira OFFLINE fcn being used Use Andries van der Schaaf`s in JCUTS Using CV model 3 with PV boost Using CV model 3 with CV wrapper thickness= 1.00 mg/cm^2, Energy threshold=0.500E-01 MeV Using CV model 3 with OPTIMISTIC INEFFYS Use Mnu2-dependent CPVetoGate width = (tlo,thi) ns defined as follows If Mnu2 < -.8000E+05 , then tlo= -2.000 , thi= 8.000 If Mnu2 > -.2000E+05 , then tlo= -4.000 , thi= 20.00 If -.8000E+05 < Mnu2 < -.2000E+05 , then tlo= -4.000 , thi is calculated by linear interp. btwn t= 8.000 at Mnu2= -.8000E+05 and t= 20.00 at Mnu2= -.2000E+05 Use beta=1 for chgd tracks for evaluating CPV ineffy Process ONLY 2g fits Using AvdS photon veto with threshold= 3.000 MeV and exponent= 1.800 Use energy-dependent ineffy catcher model 4 Use charge veto approximation for annihilating e+ Allow vetoes thru US beam pipe in US wall. Thickness(US veto)= 80.00 X0(US veto)= 17.12 RL(US veto) in cm= 4.67 Require cos(Glo,Ghi) < 0.940 to veto on lower energy gamma from e+ annihilation Supplement Zeller cuts with Konaka wrap-around cuts Supplement Zeller cuts with Konaka slow Kpi3 cuts Vacuum vessel radius= 115.00 Z(US endplate)=1025.00 Z(DS endplate)=1414.00 1090.00 < Z(recon K0L) < 1365.00 X_0(PR)= 50.0 N(rad.lens in PR)= 2.0 AK fiducial variables: zcut1= 1090.0000 AK fiducial variables: zcut2= 1365.0000 AK fiducial variables: zcal = 1557.6666 AK fiducial variables: zhole= 1515.0000 AK fiducial variables: zprerad= 1415.0000 AK fiducial variables: zprerad2= 1515.0000 AK fiducial variables: yang = 0.0025 AK fiducial variables: radlen= 50.0000 Times(s): Spill= 2.400 Interspill= 2.300 Running time=0.4320E+08 Running time(hrs)=0.1200E+05 Using Br(K0L -> pi0,nu,nubar) = 0.3000E-10 Total N(K0L) after spoiler=0.1271E+16 Total neutron interactions=-1.000 Mode Generated Effy(wt) N/N(Kpnn) Nev(mode) dNeV(mode) Who *ke3g 0.1000E+06 0.5496E-13 0.000 0.2528 0.4193E-01 MZ *ke3g 0.1000E+06 0.1560E-12 0.000 0.7177 0.6938E-01 AvdS *ke3g 0.1000E+06 0.2165E-12 0.000 0.9959 0.8640E-01 AK basic *ke3g 0.1000E+06 0.1089E-12 0.000 0.5008 0.6121E-01 AK loose *ke3g 0.1000E+06 0.9190E-13 0.000 0.4227 0.5524E-01 AK lominal *ke3g 0.1000E+06 0.6233E-13 0.000 0.2867 0.4508E-01 AK tight *ke3g 0.1000E+06 0.4636E-13 0.000 0.2132 0.3992E-01 AK tighter *ke3g 0.1000E+06 0.3986E-13 0.000 0.1833 0.3533E-01 AK tightest *ke4 0.1000E+06 0.3972E-11 0.000 0.2614 0.2334 MZ *ke4 0.1000E+06 0.4392E-11 0.000 0.2891 0.2336 AvdS *ke4 0.1000E+06 0.1775E-10 0.000 1.168 0.7934 AK basic *ke4 0.1000E+06 0.4250E-11 0.000 0.2797 0.2335 AK loose *ke4 0.1000E+06 0.4245E-11 0.000 0.2795 0.2335 AK lominal *ke4 0.1000E+06 0.4069E-11 0.000 0.2679 0.2334 AK tight *ke4 0.1000E+06 0.3998E-11 0.000 0.2631 0.2334 AK tighter *ke4 0.1000E+06 0.3925E-11 0.000 0.2583 0.2334 AK tightest *kcp3 0.1000E+06 0.4617E-14 0.000 0.7363 0.2681 MZ *kcp3 0.1000E+06 0.1410E-13 0.000 2.249 0.5104 AvdS *kcp3 0.1000E+06 0.1559E-12 0.000 24.86 1.885 AK basic *kcp3 0.1000E+06 0.2127E-13 0.000 3.392 0.6844 AK loose *kcp3 0.1000E+06 0.2127E-13 0.000 3.392 0.6844 AK lominal *kcp3 0.1000E+06 0.1084E-13 0.000 1.728 0.4618 AK tight *kcp3 0.1000E+06 0.5931E-14 0.000 0.9459 0.3808 AK tighter *kcp3 0.1000E+06 0.4026E-14 0.000 0.6421 0.3338 AK tightest seems OK. note that this is with betamax=1 for all tracks. run long job % analysis.script kpnn.ke3g.ke4.kcp3.aspect1.bryman.list ../geometry/detector.22.dat & Log file /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.kpnn.ke3g.ke4.kcp3.aspect1.bryman.110804.2108.log List of ntuples 4126 Aug 10 12:29 kpnn.ke3g.ke4.kcp3.aspect1.bryman.list Updated Akira OFFLINE fcn being used Use Andries van der Schaaf`s in JCUTS Using CV model 3 with PV boost Using CV model 3 with CV wrapper thickness= 1.00 mg/cm^2, Energy threshold=0.500E-01 MeV Using CV model 3 with OPTIMISTIC INEFFYS Use Mnu2-dependent CPVetoGate width = (tlo,thi) ns defined as follows If Mnu2 < -.8000E+05 , then tlo= -2.000 , thi= 8.000 If Mnu2 > -.2000E+05 , then tlo= -4.000 , thi= 20.00 If -.8000E+05 < Mnu2 < -.2000E+05 , then tlo= -4.000 , thi is calculated by linear interp. btwn t= 8.000 at Mnu2= -.8000E+05 and t= 20.00 at Mnu2= -.2000E+05 Use beta=1 for chgd tracks for evaluating CPV ineffy Process ONLY 2g fits Using AvdS photon veto with threshold= 3.000 MeV and exponent= 1.800 Use energy-dependent ineffy catcher model 4 Use charge veto approximation for annihilating e+ Allow vetoes thru US beam pipe in US wall. Thickness(US veto)= 80.00 X0(US veto)= 17.12 RL(US veto) in cm= 4.67 Require cos(Glo,Ghi) < 0.940 to veto on lower energy gamma from e+ annihilation Supplement Zeller cuts with Konaka wrap-around cuts Supplement Zeller cuts with Konaka slow Kpi3 cuts Vacuum vessel radius= 115.00 Z(US endplate)=1025.00 Z(DS endplate)=1414.00 1090.00 < Z(recon K0L) < 1365.00 X_0(PR)= 50.0 N(rad.lens in PR)= 2.0 AK fiducial variables: zcut1= 1090.0000 AK fiducial variables: zcut2= 1365.0000 AK fiducial variables: zcal = 1557.6666 AK fiducial variables: zhole= 1515.0000 AK fiducial variables: zprerad= 1415.0000 AK fiducial variables: zprerad2= 1515.0000 AK fiducial variables: yang = 0.0025 AK fiducial variables: radlen= 50.0000 Times(s): Spill= 2.400 Interspill= 2.300 Running time=0.4320E+08 Running time(hrs)=0.1200E+05 Using Br(K0L -> pi0,nu,nubar) = 0.3000E-10 Total N(K0L) after spoiler=0.1271E+16 Total neutron interactions=-1.000 Mode Generated Effy(wt) N/N(Kpnn) Nev(mode) dNeV(mode) Who kpnn 0.1200E+07 0.7595E-03 1.000 28.95 0.2362 MZ kpnn 0.1200E+07 0.3043E-02 1.000 116.0 0.4523 AvdS kpnn 0.1200E+07 0.2549E-02 1.000 97.16 0.4306 AK basic kpnn 0.1200E+07 0.1678E-02 1.000 63.98 0.3497 AK loose kpnn 0.1200E+07 0.1480E-02 1.000 56.44 0.3285 AK lominal kpnn 0.1200E+07 0.1015E-02 1.000 38.69 0.2717 AK tight kpnn 0.1200E+07 0.6716E-03 1.000 25.60 0.2211 AK tighter kpnn 0.1200E+07 0.5820E-03 1.000 22.19 0.2059 AK tightest *ke3g 0.2200E+07 0.2862E-11 0.4547 13.17 10.47 MZ *ke3g 0.2200E+07 0.7413E-11 0.2939 34.10 14.25 AvdS *ke3g 0.2200E+07 0.5625E-11 0.2663 25.87 11.92 AK basic *ke3g 0.2200E+07 0.3396E-11 0.2442 15.62 10.59 AK loose *ke3g 0.2200E+07 0.3152E-11 0.2569 14.50 10.54 AK lominal *ke3g 0.2200E+07 0.2878E-11 0.3421 13.24 10.47 AK tight *ke3g 0.2200E+07 0.2538E-11 0.4561 11.68 10.37 AK tighter *ke3g 0.2200E+07 0.2534E-11 0.5254 11.66 10.37 AK tightest *ke4 0.4000E+07 0.1116E-10 0.2538E-01 0.7349 0.2270 MZ *ke4 0.4000E+07 0.1759E-10 0.9979E-02 1.158 0.2851 AvdS *ke4 0.4000E+07 0.3111E-10 0.2108E-01 2.048 0.3878 AK basic *ke4 0.4000E+07 0.2356E-10 0.2424E-01 1.551 0.3492 AK loose *ke4 0.4000E+07 0.1851E-10 0.2159E-01 1.218 0.2939 AK lominal *ke4 0.4000E+07 0.1554E-10 0.2643E-01 1.023 0.2681 AK tight *ke4 0.4000E+07 0.1083E-10 0.2784E-01 0.7128 0.2264 AK tighter *ke4 0.4000E+07 0.9118E-11 0.2705E-01 0.6002 0.2046 AK tightest *kcp3 0.4000E+07 0.5831E-14 0.3211E-01 0.9298 0.5485E-01 MZ *kcp3 0.4000E+07 0.1475E-13 0.2027E-01 2.352 0.3162 AvdS *kcp3 0.4000E+07 0.2648E-11 4.346 422.2 244.9 AK basic *kcp3 0.4000E+07 0.2097E-13 0.5227E-01 3.344 0.3371 AK loose *kcp3 0.4000E+07 0.2096E-13 0.5923E-01 3.343 0.3371 AK lominal *kcp3 0.4000E+07 0.1305E-13 0.5379E-01 2.081 0.3300 AK tight *kcp3 0.4000E+07 0.5154E-14 0.3211E-01 0.8220 0.5242E-01 AK tighter *kcp3 0.4000E+07 0.3398E-14 0.2443E-01 0.5420 0.4079E-01 AK tightest some high weight ke3g events are dominating rate. Note that I am looking at events passing AvdS cut. characteristics of some of these events detailed earlier: EVTwt=0.2754E-05 with pi- DIF and dtdx=-7.0 (was -7.3 with beta=betamax), CVgate=-4,14.5ns, Zrec=1274, Ztrue=1129 EVTwt=0.2968E-05, dtdx=-2.26, CVgate=-2.,8., Mnu2=-129e3, Z(Krec)=1274, Z(Ktrue)=1197 ===> NEED TO REDUCE TAILS IN ZKrec-ZKtrue to reduce negative tail in dtdx <==== EVTwt=0.1670E-05, dtdx=-3.9, CVgate=-2.,8., Zrec=1322, Ztrue=1184 EVTwt=0.1188E-05, dtdx=-3.8, CVgate=-2.,8, Zrec=1291, Ztrue=1162 EVTwt=0.4926E-05, pi- DIF, KE(pi)=1.3, KE(mu)=3.2, dtdx=26.21, Mnu2=1e3, CVgate=-4,20 5 events, 4 have dtdxZtrue 1 has dtdx > upper limit of CVgate. Remove with cut on Mnu2? ******************************************************* Thu Aug 12 08:20:38 EDT 2004 long job with betamax from max kinetic energy, still use variable CP veto gate: Log file /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.kpnn.ke3g.ke4.kcp3.aspect1.bryman.120804.0822.log List of ntuples 4126 Aug 10 12:29 kpnn.ke3g.ke4.kcp3.aspect1.bryman.list Updated Akira OFFLINE fcn being used Use Andries van der Schaaf`s in JCUTS Using CV model 3 with PV boost Using CV model 3 with CV wrapper thickness= 1.00 mg/cm^2, Energy threshold=0.500E-01 MeV Using CV model 3 with OPTIMISTIC INEFFYS Use Mnu2-dependent CPVetoGate width = (tlo,thi) ns defined as follows If Mnu2 < -.8000E+05 , then tlo= -2.000 , thi= 8.000 If Mnu2 > -.2000E+05 , then tlo= -4.000 , thi= 20.00 If -.8000E+05 < Mnu2 < -.2000E+05 , then tlo= -4.000 , thi is calculated by linear interp. btwn t= 8.000 at Mnu2= -.8000E+05 and t= 20.00 at Mnu2= -.2000E+05 Calculate beta assuming pion mass for chgd tracks for evaluating CPV ineffy Process ONLY 2g fits Using AvdS photon veto with threshold= 3.000 MeV and exponent= 1.800 Use energy-dependent ineffy catcher model 4 Use charge veto approximation for annihilating e+ Allow vetoes thru US beam pipe in US wall. Thickness(US veto)= 80.00 X0(US veto)= 17.12 RL(US veto) in cm= 4.67 Require cos(Glo,Ghi) < 0.940 to veto on lower energy gamma from e+ annihilation Supplement Zeller cuts with Konaka wrap-around cuts Supplement Zeller cuts with Konaka slow Kpi3 cuts Vacuum vessel radius= 115.00 Z(US endplate)=1025.00 Z(DS endplate)=1414.00 1090.00 < Z(recon K0L) < 1365.00 X_0(PR)= 50.0 N(rad.lens in PR)= 2.0 AK fiducial variables: zcut1= 1090.0000 AK fiducial variables: zcut2= 1365.0000 AK fiducial variables: zcal = 1557.6666 AK fiducial variables: zhole= 1515.0000 AK fiducial variables: zprerad= 1415.0000 AK fiducial variables: zprerad2= 1515.0000 AK fiducial variables: yang = 0.0025 AK fiducial variables: radlen= 50.0000 Times(s): Spill= 2.400 Interspill= 2.300 Running time=0.4320E+08 Running time(hrs)=0.1200E+05 Using Br(K0L -> pi0,nu,nubar) = 0.3000E-10 Total N(K0L) after spoiler=0.1271E+16 Total neutron interactions=-1.000 Mode Generated Effy(wt) N/N(Kpnn) Nev(mode) dNeV(mode) Who kpnn 0.1200E+07 0.7595E-03 1.000 28.95 0.2362 MZ kpnn 0.1200E+07 0.3043E-02 1.000 116.0 0.4523 AvdS kpnn 0.1200E+07 0.2549E-02 1.000 97.16 0.4306 AK basic kpnn 0.1200E+07 0.1678E-02 1.000 63.98 0.3497 AK loose kpnn 0.1200E+07 0.1480E-02 1.000 56.44 0.3285 AK lominal kpnn 0.1200E+07 0.1015E-02 1.000 38.69 0.2717 AK tight kpnn 0.1200E+07 0.6716E-03 1.000 25.60 0.2211 AK tighter kpnn 0.1200E+07 0.5820E-03 1.000 22.19 0.2059 AK tightest *ke3g 0.2200E+07 0.2862E-11 0.4547 13.17 10.47 MZ *ke3g 0.2200E+07 0.7413E-11 0.2939 34.10 14.25 AvdS *ke3g 0.2200E+07 0.5372E-11 0.2543 24.71 11.86 AK basic *ke3g 0.2200E+07 0.3144E-11 0.2260 14.46 10.53 AK loose *ke3g 0.2200E+07 0.2899E-11 0.2363 13.34 10.47 AK lominal *ke3g 0.2200E+07 0.2878E-11 0.3421 13.24 10.47 AK tight *ke3g 0.2200E+07 0.2538E-11 0.4561 11.68 10.37 AK tighter *ke3g 0.2200E+07 0.2534E-11 0.5254 11.66 10.37 AK tightest *ke4 0.4000E+07 0.1102E-10 0.2505E-01 0.7253 0.2269 MZ *ke4 0.4000E+07 0.1735E-10 0.9846E-02 1.142 0.2850 AvdS *ke4 0.4000E+07 0.3088E-10 0.2092E-01 2.033 0.3877 AK basic *ke4 0.4000E+07 0.2342E-10 0.2409E-01 1.541 0.3491 AK loose *ke4 0.4000E+07 0.1836E-10 0.2142E-01 1.209 0.2939 AK lominal *ke4 0.4000E+07 0.1543E-10 0.2625E-01 1.016 0.2681 AK tight *ke4 0.4000E+07 0.1079E-10 0.2775E-01 0.7105 0.2264 AK tighter *ke4 0.4000E+07 0.9083E-11 0.2695E-01 0.5979 0.2046 AK tightest *kcp3 0.4000E+07 0.5831E-14 0.3211E-01 0.9298 0.5485E-01 MZ *kcp3 0.4000E+07 0.1475E-13 0.2027E-01 2.352 0.3162 AvdS *kcp3 0.4000E+07 0.2648E-11 4.346 422.2 244.9 AK basic *kcp3 0.4000E+07 0.2097E-13 0.5227E-01 3.344 0.3371 AK loose *kcp3 0.4000E+07 0.2096E-13 0.5923E-01 3.343 0.3371 AK lominal *kcp3 0.4000E+07 0.1305E-13 0.5379E-01 2.081 0.3300 AK tight *kcp3 0.4000E+07 0.5154E-14 0.3211E-01 0.8220 0.5242E-01 AK tighter *kcp3 0.4000E+07 0.3398E-14 0.2443E-01 0.5420 0.4079E-01 AK tightest Compare AvdS results for beta=1 & beta=betamax Use beta=1 for chgd tracks for evaluating CPV ineffy Using AvdS photon veto with threshold= 3.000 MeV and exponent= 1.800 Mode Generated Effy(wt) N/N(Kpnn) Nev(mode) dNeV(mode) Who kpnn 0.1200E+07 0.3043E-02 1.000 116.0 0.4523 AvdS *ke3g 0.2200E+07 0.7413E-11 0.2939 34.10 14.25 AvdS *ke4 0.4000E+07 0.1759E-10 0.9979E-02 1.158 0.2851 AvdS *kcp3 0.4000E+07 0.1475E-13 0.2027E-01 2.352 0.3162 AvdS Calculate beta assuming pion mass for chgd tracks for evaluating CPV ineffy Using AvdS photon veto with threshold= 3.000 MeV and exponent= 1.800 Mode Generated Effy(wt) N/N(Kpnn) Nev(mode) dNeV(mode) Who kpnn 0.1200E+07 0.3043E-02 1.000 116.0 0.4523 AvdS *ke3g 0.2200E+07 0.7413E-11 0.2939 34.10 14.25 AvdS *ke4 0.4000E+07 0.1735E-10 0.9846E-02 1.142 0.2850 AvdS *kcp3 0.4000E+07 0.1475E-13 0.2027E-01 2.352 0.3162 AvdS NO DIFFERENCE. So don't use beta=betamax. back to neutron studies. looks like 100cmx50cm CV (halfwidths) is well away from KL beam envelope. 100K events with skim on % simple.run.fastmc.script control.dat.remove.ybeam.constraint detector.22.dat & Logfile name is /e787u/djaffe/KOPIO/fastmc/scripts/../log/fastmc.control.dat.remove.ybeam.constraint.detector.22.dat.120804.1112.log /u1/djaffe/kopio/fastmc/ntuples/nnpi0.y50.z1215.rzn.ntskim FASTMC: Skim accepted 10 of 100000 generated events. Effy= 0.010 +- 0.003 PERCENT same initial seeds, 10K events with skim off /e787u/djaffe/KOPIO/fastmc/scripts/../log/fastmc.control.dat.remove.ybeam.constraint.detector.22.dat.120804.1114.log /u1/djaffe/kopio/fastmc/ntuples/nnpi0.y50.z1215.rzn after requiring both photons to hit PR, only 3/1802 events have a valid candidate (0<=beta(K)<=1) requiring either photon to hit PR, ~70/6384 events have a valid candidate (here 'hit PR' means zdeath(photon)>1414cm) change seeds, 10M events with skim ON: /e787u/djaffe/KOPIO/fastmc/scripts/../log/fastmc.control.dat.remove.ybeam.constraint.detector.22.dat.120804.1125.log /u1/djaffe/kopio/fastmc/ntuples/nnpi0.y50.z1215.a.rzn.ntskim FASTMC: Skim accepted 857 of10000000 generated events. Effy= 0.009 +- 0.000 PERCENT test job, x=100, y=0, z=1215, 100k events with skim on /e787u/djaffe/KOPIO/fastmc/scripts/../log/fastmc.control.dat.remove.ybeam.constraint.detector.22.dat.120804.1127.log /u1/djaffe/kopio/fastmc/ntuples/nnpi0.x100.z1215.a.rzn.ntskim FASTMC: Skim accepted 2 of 100000 generated events. Effy= 0.002 +- 0.001 PERCENT big job, x=100, y=0, z=1215, 10M events with skim on, new seeds /e787u/djaffe/KOPIO/fastmc/scripts/../log/fastmc.control.dat.remove.ybeam.constraint.detector.22.dat.120804.1146.log /u1/djaffe/kopio/fastmc/ntuples/nnpi0.x100.z1215.a.rzn.ntskim FASTMC: Skim accepted 503 of10000000 generated events. Effy= 0.005 +- 0.000 PERCENT investigation of ke3g. why is zrec-ztrue large? is e+e- annihilation done correctly in MC? is source 1 low angle photon and conversion photon with significant angle wrt e+? make more ke3g, kcp3, ke4 % submit.standard.bunch.of.jobs.script submit.standard.bunch.of.jobs.script detector.21.dat key 10 logfile is ../log/standard.bunch.of.jobs.detector.21.dat.10.130804.1715.log ******************************************************* Mon Aug 16 09:39:27 EDT 2004 end of ../log/standard.bunch.of.jobs.detector.21.dat.10.130804.1715.log : --------------------------- open: Input/output error apparent state: unit 16 named /e787u/djaffe/KOPIO/fastmc/scripts/../DataBase/skim.statistics.and.log lately writing sequential formatted external IO Abort /e787u/djaffe/KOPIO/fastmc/scripts/../locallog/ke3g.91070.141.140804.0615.log: Input/output error. run.fastmc.script ke3g 9 100000 91071 1 4 1 detector.21.dat default.decay.dat 1.1 1 ~/./run.fastmc.script: Input/output error. run.fastmc.script ke3g 9 100000 91072 1 4 1 detector.21.dat default.decay.dat 1.1 1 ~/./run.fastmc.script: Input/output error. run.fastmc.script ke3g 9 100000 91073 1 4 1 detector.21.dat default.decay.dat 1.1 1 ~/./run.fastmc.script: Input/output error. end of /e787u/djaffe/KOPIO/fastmc/scripts/../locallog/ke3g.91070.141.140804.0615.log : USEREND: Wrote 270 histograms and ntuple id 1 to unit# 20 from dir= NT1 to file= ../localntuples/ke3g.91070.141.rzn.ntskim USEREND WARNING: REZIP failed to gzip ../localntuples/ke3g.91070.141.rzn.ntskim error code= -2 FASTMC: Trigger accepted 100000 of 100000 generated events. Effy=100.000 +- 0.000 PERCENT FASTMC: Skim accepted 5255 of 100000 generated events. Effy= 5.255 +- 0.071 PERCENT end of % tail /e787u/djaffe/KOPIO/fastmc/scripts/../DataBase/skim.statistics.and.log 41201 100000 100000 ../localntuples/ke4.121070.41.rzn.ntskim 40830 100000 100000 ../localntuples/ke4.121071.41.rzn.ntskim 41188 100000 100000 ../localntuples/ke4.121072.41.rzn.ntskim 41154 100000 100000 ../localntuples/ke4.121073.41.rzn.ntskim 5335 100000 100000 ../localntuples/ke3g.91064.141.rzn.ntskim 5281 100000 100000 ../localntuples/ke3g.91065.141.rzn.ntskim 5233 100000 100000 ../localntuples/ke3g.91066.141.rzn.ntskim 5212 100000 100000 ../localntuples/ke3g.91067.141.rzn.ntskim 5358 100000 100000 ../localntuples/ke3g.91068.141.rzn.ntskim 5275 100000 100000 ../localntuples/ke3g.91069.141.rzn.ntskim Actions: 1) edit skim.statistics.and.log to add ke3g.91070.141.rzn.ntskim DONE 2) gzip ../localntuples/ke3g.91070.141.rzn.ntskim DONE 3) check for stuff that overfills home (/e787u ) disk DONE. found some old executables in source/ 4) add successfully completed jobs to aspect1.bryman.list % grep ntskim ../log/standard.bunch.of.jobs.detector.21.dat.10.130804.1715.log | awk '{print $3}' | sed -e s/local// > a. % cp aspect1.bryman.list b. % cp aspect1.bryman.list aspect1.bryman.list.OLD % cat a. b. | sort -nr | wc -l 210 % cat a. b. | sort -nr | uniq | wc -l 210 % cat a. b. | sort -nr > aspect1.bryman.list Andries sent some new cuts after his examination of the Kp2-catcher bkgd: modify select_signal: 16aug04 Remove my original cuts and either use all cuts proposed by Andries (AvdS=TRUE) or use Andries's original contour cut and my additional cuts (AvdS=FALSE). source/select_signal.f - modified "new AvdS cuts, new Jcuts" test: % analysis.script one.kpnn.and.two.kp2.aspect1.bryman.list ../geometry/detector.22.dat & Log file /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.one.kpnn.and.two.kp2.aspect1.bryman.160804.1224.log % Trim.Down.ANAL /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.one.kpnn.and.two.kp2.aspect1.bryman.160804.1224.log | grep -E 'Who|AvdS|Key' Using AvdS photon veto with threshold= 3.000 MeV and exponent= 1.800 Mode Generated Effy(wt) N/N(Kpnn) Nev(mode) dNeV(mode) Who kpnn 0.1000E+06 0.1871E-02 1.000 71.34 1.246 AvdS *kp2 0.4000E+06 0.2942E-10 0.4859 34.66 3.551 AvdS Key N(Kpnn)/B d(S/B) Nev dNeV bkgd 2.058 0.2139 34.66 3.551 AvdS compare to results of 6aug04 (117.9(.5) kpnn, 63.3(1.5) kp2, kpnn/kp2 = 1.86(.05) Laur points out the mis-reconstructed ke3g bkgd may be worse for 1gPR/1gCAL conversions. Generate & skim 100k events to check. I modified control.template for this job only. % run.fastmc.script ke3g 9 100000 91999 1 4 1 detector.21.dat default.decay.dat 1.1 1 & Log file /e787u/djaffe/KOPIO/fastmc/scripts/../locallog/ke3g.91999.141.160804.1513.log add some hists with Andries's variables, % analysis.script one.kpnn.and.two.kp2.aspect1.bryman.list ../geometry/detector.22.dat & Log file /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.one.kpnn.and.two.kp2.aspect1.bryman.160804.1613.log source/setupanal.f - modified "add RemovePKcut" source/flags.inc - modified "add RemovePKcut" source/select_signal.f - modified "add RemovePKcut for MZ cuts" source/akira.offline.f - modified "add RemovePKcut for AK cuts" huge job to test: Log file /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.aspect1.bryman.160804.1703.log *************************************** Tue Aug 17 08:55:55 EDT 2004 huge job crashed with gzip error cuz I had gunzipped /u1/djaffe/KOPIO/fastmc/ntuples/ke3g.91014.141.rzn.ntskim but not the link! geometric acceptance for kpnn and kp2 from /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.one.kpnn.and.two.kp2.aspect1.bryman.160804.1613.log kpnn skimmed and candidate accepted = .248e5 kpnn selected by skim = .448e5 kpnn events generated = 1.0e5 1 kpnn candidate/event possible geometric acceptance = .248e5/1.0e5/1 = .248 kp2 candidates skimmed and accepted = 4.79e5 kp2 candidates selected by skim = 15.4e6 kp2 events generated = 4.0e5 6 kp2 candidates/event possible geometric acceptance = 4.79e5/4.0e5/6 = 0.200 short test job: % analysis.script one.kpnn.and.two.kp2.aspect1.bryman.list ../geometry/detector.22.dat & Log file /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.one.kpnn.and.two.kp2.aspect1.bryman.170804.0957.log % Trim.Down.ANAL /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.one.kpnn.and.two.kp2.aspect1.bryman.170804.0957.log [snip] List of ntuples 106 Aug 5 17:46 one.kpnn.and.two.kp2.aspect1.bryman.list Updated Akira OFFLINE fcn being used Use Andries van der Schaaf`s in JCUTS Using CV model 3 with PV boost Using CV model 3 with CV wrapper thickness= 1.00 mg/cm^2, Energy threshold=0.500E-01 MeV Using CV model 3 with OPTIMISTIC INEFFYS Use Mnu2-dependent CPVetoGate width = (tlo,thi) ns defined as follows If Mnu2 < -.8000E+05 , then tlo= -2.000 , thi= 8.000 If Mnu2 > -.2000E+05 , then tlo= -4.000 , thi= 20.00 If -.8000E+05 < Mnu2 < -.2000E+05 , then tlo= -4.000 , thi is calculated by linear interp. btwn t= 8.000 at Mnu2= -.8000E+05 and t= 20.00 at Mnu2= -.2000E+05 Use beta=1 for chgd tracks for evaluating CPV ineffy Process ONLY 2g fits Using AvdS photon veto with threshold= 3.000 MeV and exponent= 1.800 Use energy-dependent ineffy catcher model 4 Use charge veto approximation for annihilating e+ Allow vetoes thru US beam pipe in US wall. Thickness(US veto)= 80.00 X0(US veto)= 17.12 RL(US veto) in cm= 4.67 Require cos(Glo,Ghi) < 0.940 to veto on lower energy gamma from e+ annihilation Supplement Zeller cuts with Konaka wrap-around cuts Supplement Zeller cuts with Konaka slow Kpi3 cuts Remove P(K) cuts from MZ and AK cuts <************************************************ NOTE ************* Vacuum vessel radius= 115.00 Z(US endplate)=1025.00 Z(DS endplate)=1414.00 1090.00 < Z(recon K0L) < 1365.00 X_0(PR)= 50.0 N(rad.lens in PR)= 2.0 [snip] Times(s): Spill= 2.400 Interspill= 2.300 Running time=0.4320E+08 Running time(hrs)=0.1200E+05 Using Br(K0L -> pi0,nu,nubar) = 0.3000E-10 Total N(K0L) after spoiler=0.1271E+16 Total neutron interactions=-1.000 Mode Generated Effy(wt) N/N(Kpnn) Nev(mode) dNeV(mode) Who kpnn 0.1000E+06 0.7945E-03 1.000 30.29 0.8295 MZ kpnn 0.1000E+06 0.1871E-02 1.000 71.34 1.246 AvdS kpnn 0.1000E+06 0.2864E-02 1.000 109.2 1.552 AK basic kpnn 0.1000E+06 0.1854E-02 1.000 70.67 1.248 AK loose kpnn 0.1000E+06 0.1646E-02 1.000 62.74 1.177 AK lominal kpnn 0.1000E+06 0.1099E-02 1.000 41.90 0.9609 AK tight kpnn 0.1000E+06 0.7312E-03 1.000 27.88 0.7853 AK tighter kpnn 0.1000E+06 0.6373E-03 1.000 24.30 0.7342 AK tightest *kp2 0.4000E+06 0.1286E-11 0.5001E-01 1.515 0.1426 MZ *kp2 0.4000E+06 0.2942E-10 0.4859 34.66 3.551 AvdS *kp2 0.4000E+06 0.1076E-09 1.161 126.7 25.13 AK basic *kp2 0.4000E+06 0.2534E-10 0.4224 29.85 5.117 AK loose *kp2 0.4000E+06 0.1484E-10 0.2786 17.48 4.318 AK lominal *kp2 0.4000E+06 0.5310E-11 0.1493 6.255 1.424 AK tight *kp2 0.4000E+06 0.8414E-12 0.3556E-01 0.9912 0.1027 AK tighter *kp2 0.4000E+06 0.6264E-12 0.3037E-01 0.7379 0.7057E-01 AK tightest Key N(Kpnn)/B d(S/B) Nev dNeV bkgd 20.00 1.960 1.515 0.1426 MZ bkgd 2.058 0.2139 34.66 3.551 AvdS bkgd 0.8614 0.1713 126.7 25.13 AK basic bkgd 2.367 0.4079 29.85 5.117 AK loose bkgd 3.589 0.8889 17.48 4.318 AK lominal bkgd 6.700 1.533 6.255 1.424 AK tight bkgd 28.12 3.019 0.9912 0.1027 AK tighter bkgd 32.92 3.302 0.7379 0.7057E-01 AK tightest [snip] compare with P(K) cut enabled: % Trim.Down.ANAL /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.one.kpnn.and.two.kp2.aspect1.bryman.160804.1613.log [snip] List of ntuples 106 Aug 5 17:46 one.kpnn.and.two.kp2.aspect1.bryman.list Updated Akira OFFLINE fcn being used Use Andries van der Schaaf`s in JCUTS Using CV model 3 with PV boost Using CV model 3 with CV wrapper thickness= 1.00 mg/cm^2, Energy threshold=0.500E-01 MeV Using CV model 3 with OPTIMISTIC INEFFYS Use Mnu2-dependent CPVetoGate width = (tlo,thi) ns defined as follows If Mnu2 < -.8000E+05 , then tlo= -2.000 , thi= 8.000 If Mnu2 > -.2000E+05 , then tlo= -4.000 , thi= 20.00 If -.8000E+05 < Mnu2 < -.2000E+05 , then tlo= -4.000 , thi is calculated by linear interp. btwn t= 8.000 at Mnu2= -.8000E+05 and t= 20.00 at Mnu2= -.2000E+05 Use beta=1 for chgd tracks for evaluating CPV ineffy Process ONLY 2g fits Using AvdS photon veto with threshold= 3.000 MeV and exponent= 1.800 Use energy-dependent ineffy catcher model 4 Use charge veto approximation for annihilating e+ Allow vetoes thru US beam pipe in US wall. Thickness(US veto)= 80.00 X0(US veto)= 17.12 RL(US veto) in cm= 4.67 Require cos(Glo,Ghi) < 0.940 to veto on lower energy gamma from e+ annihilation Supplement Zeller cuts with Konaka wrap-around cuts Supplement Zeller cuts with Konaka slow Kpi3 cuts Vacuum vessel radius= 115.00 Z(US endplate)=1025.00 Z(DS endplate)=1414.00 1090.00 < Z(recon K0L) < 1365.00 X_0(PR)= 50.0 N(rad.lens in PR)= 2.0 [snip] Times(s): Spill= 2.400 Interspill= 2.300 Running time=0.4320E+08 Running time(hrs)=0.1200E+05 Using Br(K0L -> pi0,nu,nubar) = 0.3000E-10 Total N(K0L) after spoiler=0.1271E+16 Total neutron interactions=-1.000 Mode Generated Effy(wt) N/N(Kpnn) Nev(mode) dNeV(mode) Who kpnn 0.1000E+06 0.7496E-03 1.000 28.58 0.8126 MZ kpnn 0.1000E+06 0.1871E-02 1.000 71.34 1.246 AvdS kpnn 0.1000E+06 0.2526E-02 1.000 96.30 1.486 AK basic kpnn 0.1000E+06 0.1639E-02 1.000 62.47 1.196 AK loose kpnn 0.1000E+06 0.1456E-02 1.000 55.50 1.128 AK lominal kpnn 0.1000E+06 0.9761E-03 1.000 37.21 0.9219 AK tight kpnn 0.1000E+06 0.6552E-03 1.000 24.98 0.7558 AK tighter kpnn 0.1000E+06 0.5732E-03 1.000 21.85 0.7075 AK tightest *kp2 0.4000E+06 0.1128E-11 0.4651E-01 1.329 0.1279 MZ *kp2 0.4000E+06 0.2942E-10 0.4859 34.66 3.551 AvdS *kp2 0.4000E+06 0.9780E-10 1.196 115.2 24.69 AK basic *kp2 0.4000E+06 0.2014E-10 0.3798 23.72 3.107 AK loose *kp2 0.4000E+06 0.1053E-10 0.2235 12.41 1.522 AK lominal *kp2 0.4000E+06 0.4859E-11 0.1538 5.724 1.421 AK tight *kp2 0.4000E+06 0.7056E-12 0.3328E-01 0.8312 0.9045E-01 AK tighter *kp2 0.4000E+06 0.4974E-12 0.2682E-01 0.5860 0.5135E-01 AK tightest Key N(Kpnn)/B d(S/B) Nev dNeV bkgd 21.50 2.158 1.329 0.1279 MZ bkgd 2.058 0.2139 34.66 3.551 AvdS bkgd 0.8359 0.1796 115.2 24.69 AK basic bkgd 2.633 0.3485 23.72 3.107 AK loose bkgd 4.473 0.5562 12.41 1.522 AK lominal bkgd 6.501 1.622 5.724 1.421 AK tight bkgd 30.05 3.394 0.8312 0.9045E-01 AK tighter bkgd 37.29 3.484 0.5860 0.5135E-01 AK tightest [snip] ratio of signal acceptance (no P(K) cut)/(P(K) cut): 1.06 MZ 1.13 AK basic 1.13 AK lominal 1.11 AK tightest ratio for kp2 bkgd: 1.14 MZ 1.10 AK basic 1.41 AK lominal 1.26 AK tightest ==> S/B gets slightly worse without PK cut for MZ,AK cuts Need to produce some events without skimming to compare with Andries % run.fastmc.script kpnn 1 100000 10999 0 4 1 detector.21.dat default.decay.dat 1.1 0 & Log file /e787u/djaffe/KOPIO/fastmc/scripts/../locallog/kpnn.10999.41.170804.1036.log % run.fastmc.script kp2 2 100000 20999 0 4 1 detector.21.dat default.decay.dat 1.1 0 & Log file /e787u/djaffe/KOPIO/fastmc/scripts/../locallog/kp2.20999.41.170804.1036.log analyze 'em % analysis.script unskimmed.kpnn.kp2.aspect1.bryman.list ../geometry/detector.22.dat & Log file /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.unskimmed.kpnn.kp2.aspect1.bryman.170804.1325.log Using AvdS photon veto with threshold= 3.000 MeV and exponent= 1.800 Use energy-dependent ineffy catcher model 4 Mode Generated Effy(wt) N/N(Kpnn) Nev(mode) dNeV(mode) Who kpnn 0.1000E+06 0.1863E-02 1.000 71.02 1.240 AvdS *kp2 0.1000E+06 0.2550E-10 0.4230 30.04 3.135 AvdS Key N(Kpnn)/B d(S/B) Nev dNeV bkgd 2.364 0.2501 30.04 3.135 AvdS wrong catcher model! Try again, with most efficient catcher model: Log file /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.unskimmed.kpnn.kp2.aspect1.bryman.170804.1336.log Using AvdS photon veto with threshold= 3.000 MeV and exponent= 1.800 Use energy-dependent ineffy catcher model 1 Mode Generated Effy(wt) N/N(Kpnn) Nev(mode) dNeV(mode) Who kpnn 0.1000E+06 0.1863E-02 1.000 71.02 1.240 AvdS *kp2 0.1000E+06 0.2177E-10 0.3611 25.64 2.098 AvdS Key N(Kpnn)/B d(S/B) Nev dNeV bkgd 2.770 0.2317 25.64 2.098 AvdS S/B consistent with 3 at 1sigma fiducial cuts only: kpnn acceptance 0.253E+05 cand/1e5 kpnn decays = 25.3% per decay kp2 1.23e5cand/1e5 kp2 decays =123% per decay = 6*20.5% br(kpnn)= 3e-11 br(kp2) =0.927e-3 fiducial cuts * veto ineffy * conv prob * kl decay prob: kpnn = 0.135E+04 cand/1e5 kpnn decays kp2 = 0.193E-02 cand/1e5 kp2 decays average veto ineffy after cuts: kpnn = 1.00 kp2 = 0.139E-07 average conversion prob after cuts: kpnn = 0.625 kp2 = 0.633 average kl decay prob after cuts: kpnn = 0.830E-01 kp2 = 0.774E-01 ignoring different conv. prob and kl decay prob: B/S = 0.927e-3/3e-11 * 0.193E-02/ 0.135E+04 = .309e8 * 1.43e-6 = .442e2 = 44.2 Andries sez he gets ~6700 for this!!!!! check with bigger sample % analysis.script one.kpnn.and.two.kp2.aspect1.bryman.list ../geometry/detector.22.dat & Log file /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.one.kpnn.and.two.kp2.aspect1.bryman.170804.1345.log Using AvdS photon veto with threshold= 3.000 MeV and exponent= 1.800 Use energy-dependent ineffy catcher model 1 Mode Generated Effy(wt) N/N(Kpnn) Nev(mode) dNeV(mode) Who kpnn 0.1000E+06 0.1871E-02 1.000 71.34 1.246 AvdS *kp2 0.4000E+06 0.2310E-10 0.3815 27.21 2.483 AvdS Key N(Kpnn)/B d(S/B) Nev dNeV bkgd 2.621 0.2435 27.21 2.483 AvdS results agree, combining results: S/B = 2.70+-0.17, 1.76sigma from 3 found that default.decay.dat has slightly wrong BR: * DEFAULT decay modes and branching fractions * *Key BR fraction From RPP2004 kpnn 3.e-11 kp2 9.27e-4 9.32e-4 kcp2 2.056e-3 2.090e-3 kgg 5.86e-4 5.90e-4 kp3 21.13e-2 21.05e-2 kcp3 12.55e-2 12.59e-2 ke3 38.78e-2 38.81e-2 km3 27.18e-2 27.19e-2 ke3g 3.62e-3 3.53e-3 km3g 5.7e-4 5.7e-4 kpgg 1.68e-6 1.41e-6 ke4 5.18e-5 5.18e-5 km4 1.4e-5 ------ * changes are due to new |eta+-|, |eta00|, |eta00/eta+-|, epsilon'/epsilon and KL -> pi0,g,g measurements. scripts/default.decay.dat.old - new "copy of default.decay.dat before PDG2004" scripts/default.decay.dat - modified "updated with PDG2004" This results in INITDECAYIT: kp2 Old Br=0.9270E-03 New Br from file=0.9320E-03 <=== CHANGED FROM NOMINAL INITDECAYIT: kcp2 Old Br=0.2056E-02 New Br from file=0.2090E-02 <=== CHANGED FROM NOMINAL INITDECAYIT: kgg Old Br=0.5860E-03 New Br from file=0.5900E-03 <=== CHANGED FROM NOMINAL INITDECAYIT: kp3 Old Br=0.2113 New Br from file=0.2105 <=== CHANGED FROM NOMINAL INITDECAYIT: kcp3 Old Br=0.1255 New Br from file=0.1259 <=== CHANGED FROM NOMINAL INITDECAYIT: ke3g Old Br=0.3620E-02 New Br from file=0.3530E-02 <=== CHANGED FROM NOMINAL INITDECAYIT: kpgg Old Br=0.1680E-05 New Br from file=0.1410E-05 <=== CHANGED FROM NOMINAL INITDECAYIT: K0L decay mode information # iwt Key K0L decay modes Maxweight BR fractio BR/BR(pnn) 1 2 kpnn pi0 nu nu 1.000 0.3000E-10 1.000 2 1 kp2 pi0 pi0 1.000 0.9320E-03 0.3107E+08 <=== CHANGED FROM NOMINAL 3 1 kcp2 pi pi 1.000 0.2090E-02 0.6967E+08 <=== CHANGED FROM NOMINAL 4 1 kgg gamm gamm 1.000 0.5900E-03 0.1967E+08 <=== CHANGED FROM NOMINAL 5 3 kp3 pi0 pi0 pi0 1.000 0.2105 0.7017E+10 <=== CHANGED FROM NOMINAL 6 3 kcp3 pi pi pi0 1.000 0.1259 0.4197E+10 <=== CHANGED FROM NOMINAL 7 2 ke3 pi e nu 1.000 0.3881 0.1294E+11 8 2 km3 pi mu nu 1.000 0.2719 0.9063E+10 9 4 ke3g pi e nu gamm 1.000 0.3530E-02 0.1177E+09 <=== CHANGED FROM NOMINAL 10 4 km3g pi mu nu gamm 1.000 0.5700E-03 0.1900E+08 11 5 kpgg pi0 gamm gamm 1.000 0.1410E-05 0.4700E+05 <=== CHANGED FROM NOMINAL 12 6 ke4 pi0 pi e nu 1.000 0.5180E-04 0.1727E+07 13 6 km4 pi0 pi mu nu 1.000 0.1400E-04 0.4667E+06 14 1 kbet K e nu 1.000 0.1000E-07 333.3 Summed Br(K0L)= 1.004 study effect of DS veto window on ke3g, kcp3, ke4 rates. set CP veto gate width infinite for this study. these results use Andries's latest set of cuts. no DS window: % analysis.script one.ke3g.ke4.kcp3.aspect1.bryman.list ../geometry/detector.22.dat & Log file /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.one.ke3g.ke4.kcp3.aspect1.bryman.170804.1544.log Log file name is /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.one.ke3g.ke4.kcp3.aspect1.bryman.170804.1544.log Histogram file ../ntuples/anal.one.ke3g.ke4.kcp3.aspect1.bryman.170804.1544.rzn Start time is Tue Aug 17 15:44:26 EDT 2004 Finish time is Tue Aug 17 15:46:26 EDT 2004 List of ntuples 109 Aug 8 02:03 one.ke3g.ke4.kcp3.aspect1.bryman.list Updated Akira OFFLINE fcn being used Use Andries van der Schaaf`s in JCUTS Using CV model 3 with PV boost Using CV model 3 with CV wrapper thickness= 1.00 mg/cm^2, Energy threshold=0.500E-01 MeV Using CV model 3 with OPTIMISTIC INEFFYS Charged particle veto gate in ns = (-.400E+21 ,0.160E+22) Use beta=1 for chgd tracks for evaluating CPV ineffy Process ONLY 2g fits Using AvdS photon veto with threshold= 3.000 MeV and exponent= 1.800 Use energy-dependent ineffy catcher model 1 Use charge veto approximation for annihilating e+ Allow vetoes thru US beam pipe in US wall. Thickness(US veto)= 80.00 X0(US veto)= 17.12 RL(US veto) in cm= 4.67 Require cos(Glo,Ghi) < 0.940 to veto on lower energy gamma from e+ annihilation Supplement Zeller cuts with Konaka wrap-around cuts Supplement Zeller cuts with Konaka slow Kpi3 cuts Remove P(K) cuts from MZ and AK cuts Vacuum vessel radius= 115.00 Z(US endplate)=1025.00 Z(DS endplate)=1414.00 1090.00 < Z(recon K0L) < 1365.00 X_0(PR)= 50.0 N(rad.lens in PR)= 2.0 AK fiducial variables: zcut1= 1090.0000 AK fiducial variables: zcut2= 1365.0000 AK fiducial variables: zcal = 1557.6666 AK fiducial variables: zhole= 1515.0000 AK fiducial variables: zprerad= 1415.0000 AK fiducial variables: zprerad2= 1515.0000 AK fiducial variables: yang = 0.0025 AK fiducial variables: radlen= 50.0000 Times(s): Spill= 2.400 Interspill= 2.300 Running time=0.4320E+08 Running time(hrs)=0.1200E+05 Using Br(K0L -> pi0,nu,nubar) = 0.3000E-10 Total N(K0L) after spoiler=0.1271E+16 Total neutron interactions=-1.000 Mode Generated Effy(wt) N/N(Kpnn) Nev(mode) dNeV(mode) Who *ke3g 0.1000E+06 0.5502E-13 0.000 0.2468 0.4088E-01 MZ *ke3g 0.1000E+06 0.9996E-13 0.000 0.4484 0.5467E-01 AvdS *ke3g 0.1000E+06 0.2268E-12 0.000 1.017 0.8563E-01 AK basic *ke3g 0.1000E+06 0.1119E-12 0.000 0.5020 0.5991E-01 AK loose *ke3g 0.1000E+06 0.9494E-13 0.000 0.4259 0.5411E-01 AK lominal *ke3g 0.1000E+06 0.6479E-13 0.000 0.2906 0.4423E-01 AK tight *ke3g 0.1000E+06 0.4770E-13 0.000 0.2139 0.3905E-01 AK tighter *ke3g 0.1000E+06 0.4052E-13 0.000 0.1818 0.3451E-01 AK tightest *ke4 0.1000E+06 0.4385E-12 0.000 0.2886E-01 0.1033E-01 MZ *ke4 0.1000E+06 0.3311E-12 0.000 0.2179E-01 0.7984E-02 AvdS *ke4 0.1000E+06 0.1306E-10 0.000 0.8594 0.7544 AK basic *ke4 0.1000E+06 0.7185E-12 0.000 0.4730E-01 0.1292E-01 AK loose *ke4 0.1000E+06 0.7142E-12 0.000 0.4701E-01 0.1292E-01 AK lominal *ke4 0.1000E+06 0.5374E-12 0.000 0.3538E-01 0.1113E-01 AK tight *ke4 0.1000E+06 0.4643E-12 0.000 0.3056E-01 0.1051E-01 AK tighter *ke4 0.1000E+06 0.3913E-12 0.000 0.2576E-01 0.1000E-01 AK tightest *kcp3 0.1000E+06 0.4657E-14 0.000 0.7451 0.2691 MZ *kcp3 0.1000E+06 0.4458E-13 0.000 7.132 0.9353 AvdS *kcp3 0.1000E+06 0.1622E-12 0.000 25.95 1.956 AK basic *kcp3 0.1000E+06 0.2139E-13 0.000 3.423 0.6867 AK loose *kcp3 0.1000E+06 0.2139E-13 0.000 3.423 0.6867 AK lominal *kcp3 0.1000E+06 0.1096E-13 0.000 1.753 0.4635 AK tight *kcp3 0.1000E+06 0.5973E-14 0.000 0.9555 0.3821 AK tighter *kcp3 0.1000E+06 0.4067E-14 0.000 0.6507 0.3350 AK tightest Key N(Kpnn)/B d(S/B) Nev dNeV bkgd 0.000 0.000 1.021 0.2723 MZ bkgd 0.000 0.000 7.602 0.9369 AvdS bkgd 0.000 0.000 27.83 2.098 AK basic bkgd 0.000 0.000 3.972 0.6894 AK loose bkgd 0.000 0.000 3.896 0.6890 AK lominal bkgd 0.000 0.000 2.079 0.4657 AK tight bkgd 0.000 0.000 1.200 0.3842 AK tighter bkgd 0.000 0.000 0.8582 0.3369 AK tightest with 13.5 mg/cm^2 DS window: Log file /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.one.ke3g.ke4.kcp3.aspect1.bryman.170804.1551.log Log file name is /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.one.ke3g.ke4.kcp3.aspect1.bryman.170804.1551.log Histogram file ../ntuples/anal.one.ke3g.ke4.kcp3.aspect1.bryman.170804.1551.rzn Start time is Tue Aug 17 15:51:00 EDT 2004 Finish time is Tue Aug 17 15:52:58 EDT 2004 List of ntuples 109 Aug 8 02:03 one.ke3g.ke4.kcp3.aspect1.bryman.list Updated Akira OFFLINE fcn being used Use Andries van der Schaaf`s in JCUTS Using CV model 3 with PV boost Using CV model 3 with CV wrapper thickness= 1.00 and DS window thickness= 13.5 mg/cm^2, Energy threshold=0.500E-01 MeV Using CV model 3 with OPTIMISTIC INEFFYS Charged particle veto gate in ns = (-.400E+21 ,0.160E+22) Use beta=1 for chgd tracks for evaluating CPV ineffy Process ONLY 2g fits Using AvdS photon veto with threshold= 3.000 MeV and exponent= 1.800 Use energy-dependent ineffy catcher model 1 Use charge veto approximation for annihilating e+ Allow vetoes thru US beam pipe in US wall. Thickness(US veto)= 80.00 X0(US veto)= 17.12 RL(US veto) in cm= 4.67 Require cos(Glo,Ghi) < 0.940 to veto on lower energy gamma from e+ annihilation Supplement Zeller cuts with Konaka wrap-around cuts Supplement Zeller cuts with Konaka slow Kpi3 cuts Remove P(K) cuts from MZ and AK cuts Vacuum vessel radius= 115.00 Z(US endplate)=1025.00 Z(DS endplate)=1414.00 1090.00 < Z(recon K0L) < 1365.00 X_0(PR)= 50.0 N(rad.lens in PR)= 2.0 AK fiducial variables: zcut1= 1090.0000 AK fiducial variables: zcut2= 1365.0000 AK fiducial variables: zcal = 1557.6666 AK fiducial variables: zhole= 1515.0000 AK fiducial variables: zprerad= 1415.0000 AK fiducial variables: zprerad2= 1515.0000 AK fiducial variables: yang = 0.0025 AK fiducial variables: radlen= 50.0000 Times(s): Spill= 2.400 Interspill= 2.300 Running time=0.4320E+08 Running time(hrs)=0.1200E+05 Using Br(K0L -> pi0,nu,nubar) = 0.3000E-10 Total N(K0L) after spoiler=0.1271E+16 Total neutron interactions=-1.000 Mode Generated Effy(wt) N/N(Kpnn) Nev(mode) dNeV(mode) Who *ke3g 0.1000E+06 0.6079E-13 0.000 0.2727 0.4530E-01 MZ *ke3g 0.1000E+06 0.1084E-12 0.000 0.4864 0.5906E-01 AvdS *ke3g 0.1000E+06 0.2379E-12 0.000 1.067 0.8934E-01 AK basic *ke3g 0.1000E+06 0.1200E-12 0.000 0.5385 0.6389E-01 AK loose *ke3g 0.1000E+06 0.1031E-12 0.000 0.4623 0.5849E-01 AK lominal *ke3g 0.1000E+06 0.7103E-13 0.000 0.3186 0.4845E-01 AK tight *ke3g 0.1000E+06 0.5391E-13 0.000 0.2418 0.4377E-01 AK tighter *ke3g 0.1000E+06 0.4673E-13 0.000 0.2096 0.3978E-01 AK tightest *ke4 0.1000E+06 0.4839E-12 0.000 0.3185E-01 0.1086E-01 MZ *ke4 0.1000E+06 0.4123E-12 0.000 0.2714E-01 0.1046E-01 AvdS *ke4 0.1000E+06 0.1334E-10 0.000 0.8781 0.7545 AK basic *ke4 0.1000E+06 0.8427E-12 0.000 0.5547E-01 0.1498E-01 AK loose *ke4 0.1000E+06 0.8378E-12 0.000 0.5514E-01 0.1498E-01 AK lominal *ke4 0.1000E+06 0.6476E-12 0.000 0.4263E-01 0.1341E-01 AK tight *ke4 0.1000E+06 0.5091E-12 0.000 0.3351E-01 0.1103E-01 AK tighter *ke4 0.1000E+06 0.4356E-12 0.000 0.2868E-01 0.1055E-01 AK tightest *kcp3 0.1000E+06 0.1302E-13 0.000 2.083 0.8340 MZ *kcp3 0.1000E+06 0.1399E-12 0.000 22.39 3.860 AvdS *kcp3 0.1000E+06 0.4250E-12 0.000 67.99 6.212 AK basic *kcp3 0.1000E+06 0.5703E-13 0.000 9.124 1.993 AK loose *kcp3 0.1000E+06 0.5703E-13 0.000 9.124 1.993 AK lominal *kcp3 0.1000E+06 0.3520E-13 0.000 5.632 1.669 AK tight *kcp3 0.1000E+06 0.1545E-13 0.000 2.471 0.9172 AK tighter *kcp3 0.1000E+06 0.8711E-14 0.000 1.394 0.6948 AK tightest Key N(Kpnn)/B d(S/B) Nev dNeV bkgd 0.000 0.000 2.387 0.8353 MZ bkgd 0.000 0.000 22.90 3.860 AvdS bkgd 0.000 0.000 69.94 6.258 AK basic bkgd 0.000 0.000 9.718 1.994 AK loose bkgd 0.000 0.000 9.641 1.994 AK lominal bkgd 0.000 0.000 5.993 1.670 AK tight bkgd 0.000 0.000 2.747 0.9183 AK tighter bkgd 0.000 0.000 1.632 0.6960 AK tightest roughly a factor of 3 increase in bkgd, all due to kcp3. 27.0 mg/cm^2 window: Log file /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.one.ke3g.ke4.kcp3.aspect1.bryman.170804.1556.log Log file name is /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.one.ke3g.ke4.kcp3.aspect1.bryman.170804.1556.log Histogram file ../ntuples/anal.one.ke3g.ke4.kcp3.aspect1.bryman.170804.1556.rzn Start time is Tue Aug 17 15:56:15 EDT 2004 Finish time is Tue Aug 17 15:58:09 EDT 2004 List of ntuples 109 Aug 8 02:03 one.ke3g.ke4.kcp3.aspect1.bryman.list Updated Akira OFFLINE fcn being used Use Andries van der Schaaf`s in JCUTS Using CV model 3 with PV boost Using CV model 3 with CV wrapper thickness= 1.00 and DS window thickness= 27.0 mg/cm^2, Energy threshold=0.500E-01 MeV Using CV model 3 with OPTIMISTIC INEFFYS Charged particle veto gate in ns = (-.400E+21 ,0.160E+22) Use beta=1 for chgd tracks for evaluating CPV ineffy Process ONLY 2g fits Using AvdS photon veto with threshold= 3.000 MeV and exponent= 1.800 Use energy-dependent ineffy catcher model 1 Use charge veto approximation for annihilating e+ Allow vetoes thru US beam pipe in US wall. Thickness(US veto)= 80.00 X0(US veto)= 17.12 RL(US veto) in cm= 4.67 Require cos(Glo,Ghi) < 0.940 to veto on lower energy gamma from e+ annihilation Supplement Zeller cuts with Konaka wrap-around cuts Supplement Zeller cuts with Konaka slow Kpi3 cuts Remove P(K) cuts from MZ and AK cuts Vacuum vessel radius= 115.00 Z(US endplate)=1025.00 Z(DS endplate)=1414.00 1090.00 < Z(recon K0L) < 1365.00 X_0(PR)= 50.0 N(rad.lens in PR)= 2.0 AK fiducial variables: zcut1= 1090.0000 AK fiducial variables: zcut2= 1365.0000 AK fiducial variables: zcal = 1557.6666 AK fiducial variables: zhole= 1515.0000 AK fiducial variables: zprerad= 1415.0000 AK fiducial variables: zprerad2= 1515.0000 AK fiducial variables: yang = 0.0025 AK fiducial variables: radlen= 50.0000 Times(s): Spill= 2.400 Interspill= 2.300 Running time=0.4320E+08 Running time(hrs)=0.1200E+05 Using Br(K0L -> pi0,nu,nubar) = 0.3000E-10 Total N(K0L) after spoiler=0.1271E+16 Total neutron interactions=-1.000 Mode Generated Effy(wt) N/N(Kpnn) Nev(mode) dNeV(mode) Who *ke3g 0.1000E+06 0.6656E-13 0.000 0.2986 0.5197E-01 MZ *ke3g 0.1000E+06 0.1169E-12 0.000 0.5244 0.6587E-01 AvdS *ke3g 0.1000E+06 0.2491E-12 0.000 1.117 0.9532E-01 AK basic *ke3g 0.1000E+06 0.1282E-12 0.000 0.5749 0.7016E-01 AK loose *ke3g 0.1000E+06 0.1112E-12 0.000 0.4987 0.6528E-01 AK lominal *ke3g 0.1000E+06 0.7726E-13 0.000 0.3466 0.5491E-01 AK tight *ke3g 0.1000E+06 0.6012E-13 0.000 0.2697 0.5083E-01 AK tighter *ke3g 0.1000E+06 0.5294E-13 0.000 0.2375 0.4743E-01 AK tightest *ke4 0.1000E+06 0.5293E-12 0.000 0.3484E-01 0.1171E-01 MZ *ke4 0.1000E+06 0.4935E-12 0.000 0.3249E-01 0.1368E-01 AvdS *ke4 0.1000E+06 0.1362E-10 0.000 0.8968 0.7547 AK basic *ke4 0.1000E+06 0.9670E-12 0.000 0.6365E-01 0.1795E-01 AK loose *ke4 0.1000E+06 0.9613E-12 0.000 0.6328E-01 0.1795E-01 AK lominal *ke4 0.1000E+06 0.7578E-12 0.000 0.4988E-01 0.1659E-01 AK tight *ke4 0.1000E+06 0.5539E-12 0.000 0.3646E-01 0.1187E-01 AK tighter *ke4 0.1000E+06 0.4800E-12 0.000 0.3160E-01 0.1142E-01 AK tightest *kcp3 0.1000E+06 0.2587E-13 0.000 4.139 1.921 MZ *kcp3 0.1000E+06 0.2838E-12 0.000 45.40 9.259 AvdS *kcp3 0.1000E+06 0.7889E-12 0.000 126.2 13.56 AK basic *kcp3 0.1000E+06 0.1071E-12 0.000 17.14 4.354 AK loose *kcp3 0.1000E+06 0.1071E-12 0.000 17.14 4.354 AK lominal *kcp3 0.1000E+06 0.7215E-13 0.000 11.54 3.921 AK tight *kcp3 0.1000E+06 0.2980E-13 0.000 4.767 1.977 AK tighter *kcp3 0.1000E+06 0.1528E-13 0.000 2.445 1.374 AK tightest Key N(Kpnn)/B d(S/B) Nev dNeV bkgd 0.000 0.000 4.472 1.922 MZ bkgd 0.000 0.000 45.96 9.260 AvdS bkgd 0.000 0.000 128.2 13.58 AK basic bkgd 0.000 0.000 17.78 4.355 AK loose bkgd 0.000 0.000 17.70 4.355 AK lominal bkgd 0.000 0.000 11.94 3.922 AK tight bkgd 0.000 0.000 5.073 1.978 AK tighter bkgd 0.000 0.000 2.714 1.375 AK tightest kcp3 bkgd with AvdS cuts 7.132 0.9353 no DS window 22.39 3.860 DS window thickness= 13.5 mg/cm^2 45.40 9.259 DS window thickness= 27.0 mg/cm^2 13.5/none = 3.14 27.0/none = 6.37 27.0/13.5 = 2.03 approx 1.71 bkgd events per mg/cm^2 of window thickness linear fit gives kcp3 event rate = 5.84 + 1.417*thickness(mg/cm^2) % grep -E 'kpnn|ke3g|ke4|kcp3' aspect1.bryman.list > kpnn.ke3g.ke4.kcp3.aspect1.bryman.list short job using 'old' AvdS cuts: Log file name is /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.one.ke3g.ke4.kcp3.aspect1.bryman.170804.1645.log Histogram file ../ntuples/anal.one.ke3g.ke4.kcp3.aspect1.bryman.170804.1645.rzn Start time is Tue Aug 17 16:45:48 EDT 2004 Finish time is Tue Aug 17 16:47:42 EDT 2004 List of ntuples 109 Aug 8 02:03 one.ke3g.ke4.kcp3.aspect1.bryman.list Updated Akira OFFLINE fcn being used Using CV model 3 with PV boost Using CV model 3 with CV wrapper thickness= 1.00 mg/cm^2, Energy threshold=0.500E-01 MeV Using CV model 3 with OPTIMISTIC INEFFYS Charged particle veto gate in ns = (-.400E+21 ,0.160E+22) Use beta=1 for chgd tracks for evaluating CPV ineffy Process ONLY 2g fits Using AvdS photon veto with threshold= 3.000 MeV and exponent= 1.800 Use energy-dependent ineffy catcher model 1 Use charge veto approximation for annihilating e+ Allow vetoes thru US beam pipe in US wall. Thickness(US veto)= 80.00 X0(US veto)= 17.12 RL(US veto) in cm= 4.67 Require cos(Glo,Ghi) < 0.940 to veto on lower energy gamma from e+ annihilation Supplement Zeller cuts with Konaka wrap-around cuts Supplement Zeller cuts with Konaka slow Kpi3 cuts Remove P(K) cuts from MZ and AK cuts Vacuum vessel radius= 115.00 Z(US endplate)=1025.00 Z(DS endplate)=1414.00 1090.00 < Z(recon K0L) < 1365.00 X_0(PR)= 50.0 N(rad.lens in PR)= 2.0 AK fiducial variables: zcut1= 1090.0000 AK fiducial variables: zcut2= 1365.0000 AK fiducial variables: zcal = 1557.6666 AK fiducial variables: zhole= 1515.0000 AK fiducial variables: zprerad= 1415.0000 AK fiducial variables: zprerad2= 1515.0000 AK fiducial variables: yang = 0.0025 AK fiducial variables: radlen= 50.0000 Times(s): Spill= 2.400 Interspill= 2.300 Running time=0.4320E+08 Running time(hrs)=0.1200E+05 Using Br(K0L -> pi0,nu,nubar) = 0.3000E-10 Total N(K0L) after spoiler=0.1271E+16 Total neutron interactions=-1.000 Mode Generated Effy(wt) N/N(Kpnn) Nev(mode) dNeV(mode) Who *ke3g 0.1000E+06 0.5502E-13 0.000 0.2468 0.4088E-01 MZ *ke3g 0.1000E+06 0.1560E-12 0.000 0.6998 0.6765E-01 DJ *ke3g 0.1000E+06 0.2268E-12 0.000 1.017 0.8563E-01 AK basic *ke3g 0.1000E+06 0.1119E-12 0.000 0.5020 0.5991E-01 AK loose *ke3g 0.1000E+06 0.9494E-13 0.000 0.4259 0.5411E-01 AK lominal *ke3g 0.1000E+06 0.6479E-13 0.000 0.2906 0.4423E-01 AK tight *ke3g 0.1000E+06 0.4770E-13 0.000 0.2139 0.3905E-01 AK tighter *ke3g 0.1000E+06 0.4052E-13 0.000 0.1818 0.3451E-01 AK tightest *ke4 0.1000E+06 0.4385E-12 0.000 0.2886E-01 0.1033E-01 MZ *ke4 0.1000E+06 0.8501E-12 0.000 0.5596E-01 0.1415E-01 DJ *ke4 0.1000E+06 0.1306E-10 0.000 0.8594 0.7544 AK basic *ke4 0.1000E+06 0.7185E-12 0.000 0.4730E-01 0.1292E-01 AK loose *ke4 0.1000E+06 0.7142E-12 0.000 0.4701E-01 0.1292E-01 AK lominal *ke4 0.1000E+06 0.5374E-12 0.000 0.3538E-01 0.1113E-01 AK tight *ke4 0.1000E+06 0.4643E-12 0.000 0.3056E-01 0.1051E-01 AK tighter *ke4 0.1000E+06 0.3913E-12 0.000 0.2576E-01 0.1000E-01 AK tightest *kcp3 0.1000E+06 0.4657E-14 0.000 0.7451 0.2691 MZ *kcp3 0.1000E+06 0.1410E-13 0.000 2.256 0.5121 DJ *kcp3 0.1000E+06 0.1622E-12 0.000 25.95 1.956 AK basic *kcp3 0.1000E+06 0.2139E-13 0.000 3.423 0.6867 AK loose *kcp3 0.1000E+06 0.2139E-13 0.000 3.423 0.6867 AK lominal *kcp3 0.1000E+06 0.1096E-13 0.000 1.753 0.4635 AK tight *kcp3 0.1000E+06 0.5973E-14 0.000 0.9555 0.3821 AK tighter *kcp3 0.1000E+06 0.4067E-14 0.000 0.6507 0.3350 AK tightest Key N(Kpnn)/B d(S/B) Nev dNeV bkgd 0.000 0.000 1.021 0.2723 MZ bkgd 0.000 0.000 3.012 0.5167 DJ bkgd 0.000 0.000 27.83 2.098 AK basic bkgd 0.000 0.000 3.972 0.6894 AK loose bkgd 0.000 0.000 3.896 0.6890 AK lominal bkgd 0.000 0.000 2.079 0.4657 AK tight bkgd 0.000 0.000 1.200 0.3842 AK tighter bkgd 0.000 0.000 0.8582 0.3369 AK tightest long job, no CPV gate, no P(K) cut on MZ,AK cuts: Log file /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.kpnn.ke3g.ke4.kcp3.aspect1.bryman.170804.1700.log Log file name is /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.kpnn.ke3g.ke4.kcp3.aspect1.bryman.170804.1700.log Histogram file ../ntuples/anal.kpnn.ke3g.ke4.kcp3.aspect1.bryman.170804.1700.rzn Start time is Tue Aug 17 17:00:03 EDT 2004 Finish time is Tue Aug 17 18:48:42 EDT 2004 List of ntuples 5105 Aug 17 16:44 kpnn.ke3g.ke4.kcp3.aspect1.bryman.list Updated Akira OFFLINE fcn being used Using CV model 3 with PV boost Using CV model 3 with CV wrapper thickness= 1.00 mg/cm^2, Energy threshold=0.500E-01 MeV Using CV model 3 with OPTIMISTIC INEFFYS Charged particle veto gate in ns = (-.400E+21 ,0.160E+22) Use beta=1 for chgd tracks for evaluating CPV ineffy Process ONLY 2g fits Using AvdS photon veto with threshold= 3.000 MeV and exponent= 1.800 Use energy-dependent ineffy catcher model 1 Use charge veto approximation for annihilating e+ Allow vetoes thru US beam pipe in US wall. Thickness(US veto)= 80.00 X0(US veto)= 17.12 RL(US veto) in cm= 4.67 Require cos(Glo,Ghi) < 0.940 to veto on lower energy gamma from e+ annihilation Supplement Zeller cuts with Konaka wrap-around cuts Supplement Zeller cuts with Konaka slow Kpi3 cuts Remove P(K) cuts from MZ and AK cuts Vacuum vessel radius= 115.00 Z(US endplate)=1025.00 Z(DS endplate)=1414.00 1090.00 < Z(recon K0L) < 1365.00 X_0(PR)= 50.0 N(rad.lens in PR)= 2.0 AK fiducial variables: zcut1= 1090.0000 AK fiducial variables: zcut2= 1365.0000 AK fiducial variables: zcal = 1557.6666 AK fiducial variables: zhole= 1515.0000 AK fiducial variables: zprerad= 1415.0000 AK fiducial variables: zprerad2= 1515.0000 AK fiducial variables: yang = 0.0025 AK fiducial variables: radlen= 50.0000 Times(s): Spill= 2.400 Interspill= 2.300 Running time=0.4320E+08 Running time(hrs)=0.1200E+05 Using Br(K0L -> pi0,nu,nubar) = 0.3000E-10 Total N(K0L) after spoiler=0.1271E+16 Total neutron interactions=-1.000 Mode Generated Effy(wt) N/N(Kpnn) Nev(mode) dNeV(mode) Who kpnn 0.1200E+07 0.8062E-03 1.000 30.73 0.2410 MZ kpnn 0.1200E+07 0.3043E-02 1.000 116.0 0.4523 DJ kpnn 0.1200E+07 0.2898E-02 1.000 110.5 0.4499 AK basic kpnn 0.1200E+07 0.1904E-02 1.000 72.58 0.3651 AK loose kpnn 0.1200E+07 0.1680E-02 1.000 64.05 0.3430 AK lominal kpnn 0.1200E+07 0.1146E-02 1.000 43.68 0.2832 AK tight kpnn 0.1200E+07 0.7552E-03 1.000 28.79 0.2300 AK tighter kpnn 0.1200E+07 0.6531E-03 1.000 24.90 0.2141 AK tightest *ke4 0.5000E+07 0.1265E-10 0.2709E-01 0.8324 0.2263 MZ *ke4 0.5000E+07 0.1662E-10 0.9429E-02 1.094 0.2549 DJ *ke4 0.5000E+07 0.3211E-10 0.1913E-01 2.114 0.3582 AK basic *ke4 0.5000E+07 0.2302E-10 0.2088E-01 1.515 0.3109 AK loose *ke4 0.5000E+07 0.1897E-10 0.1949E-01 1.249 0.2718 AK lominal *ke4 0.5000E+07 0.1531E-10 0.2308E-01 1.008 0.2438 AK tight *ke4 0.5000E+07 0.1034E-10 0.2365E-01 0.6809 0.2023 AK tighter *ke4 0.5000E+07 0.8973E-11 0.2372E-01 0.5907 0.1868 AK tightest *ke3g 0.2900E+07 0.4394E-13 0.6414E-02 0.1971 0.6889E-02 MZ *ke3g 0.2900E+07 0.1496E-12 0.5782E-02 0.6709 0.1462E-01 DJ *ke3g 0.2900E+07 0.2240E-12 0.9093E-02 1.005 0.1745E-01 AK basic *ke3g 0.2900E+07 0.9582E-13 0.5922E-02 0.4298 0.1126E-01 AK loose *ke3g 0.2900E+07 0.8389E-13 0.5875E-02 0.3763 0.1024E-01 AK lominal *ke3g 0.2900E+07 0.6208E-13 0.6376E-02 0.2785 0.8928E-02 AK tight *ke3g 0.2900E+07 0.3983E-13 0.6207E-02 0.1787 0.6834E-02 AK tighter *ke3g 0.2900E+07 0.3542E-13 0.6382E-02 0.1589 0.6492E-02 AK tightest *kcp3 0.5000E+07 0.5894E-14 0.3068E-01 0.9429 0.5000E-01 MZ *kcp3 0.5000E+07 0.1294E-13 0.1784E-01 2.070 0.5892E-01 DJ *kcp3 0.5000E+07 0.1818E-12 0.2633 29.09 0.2926 AK basic *kcp3 0.5000E+07 0.1928E-13 0.4249E-01 3.084 0.9300E-01 AK loose *kcp3 0.5000E+07 0.1925E-13 0.4809E-01 3.080 0.9296E-01 AK lominal *kcp3 0.5000E+07 0.1126E-13 0.4126E-01 1.802 0.6954E-01 AK tight *kcp3 0.5000E+07 0.5157E-14 0.2866E-01 0.8251 0.4679E-01 AK tighter *kcp3 0.5000E+07 0.3498E-14 0.2248E-01 0.5597 0.3742E-01 AK tightest Key N(Kpnn)/B d(S/B) Nev dNeV bkgd 15.58 1.835 1.972 0.2318 MZ bkgd 30.26 2.071 3.835 0.2620 DJ bkgd 3.431 0.5124E-01 32.21 0.4628 AK basic bkgd 14.43 0.9346 5.029 0.3247 AK loose bkgd 13.61 0.8350 4.705 0.2875 AK lominal bkgd 14.14 1.165 3.088 0.2537 AK tight bkgd 17.09 2.112 1.685 0.2077 AK tighter bkgd 19.02 2.774 1.309 0.1907 AK tightest CPVetoGate = -4,+16ns, no P(K) cuts: Log file /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.kpnn.ke3g.ke4.kcp3.aspect1.bryman.170804.2119.log ******************************************* Wed Aug 18 09:28:00 EDT 2004 Log file name is /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.kpnn.ke3g.ke4.kcp3.aspect1.bryman.170804.2119.log Histogram file ../ntuples/anal.kpnn.ke3g.ke4.kcp3.aspect1.bryman.170804.2119.rzn Start time is Tue Aug 17 21:19:48 EDT 2004 Finish time is Tue Aug 17 23:09:54 EDT 2004 List of ntuples 5105 Aug 17 16:44 kpnn.ke3g.ke4.kcp3.aspect1.bryman.list Updated Akira OFFLINE fcn being used Using CV model 3 with PV boost Using CV model 3 with CV wrapper thickness= 1.00 mg/cm^2, Energy threshold=0.500E-01 MeV Using CV model 3 with OPTIMISTIC INEFFYS Charged particle veto gate in ns = (-4.00 , 16.0 ) Use beta=1 for chgd tracks for evaluating CPV ineffy Process ONLY 2g fits Using AvdS photon veto with threshold= 3.000 MeV and exponent= 1.800 Use energy-dependent ineffy catcher model 1 Use charge veto approximation for annihilating e+ Allow vetoes thru US beam pipe in US wall. Thickness(US veto)= 80.00 X0(US veto)= 17.12 RL(US veto) in cm= 4.67 Require cos(Glo,Ghi) < 0.940 to veto on lower energy gamma from e+ annihilation Supplement Zeller cuts with Konaka wrap-around cuts Supplement Zeller cuts with Konaka slow Kpi3 cuts Remove P(K) cuts from MZ and AK cuts Vacuum vessel radius= 115.00 Z(US endplate)=1025.00 Z(DS endplate)=1414.00 1090.00 < Z(recon K0L) < 1365.00 X_0(PR)= 50.0 N(rad.lens in PR)= 2.0 AK fiducial variables: zcut1= 1090.0000 AK fiducial variables: zcut2= 1365.0000 AK fiducial variables: zcal = 1557.6666 AK fiducial variables: zhole= 1515.0000 AK fiducial variables: zprerad= 1415.0000 AK fiducial variables: zprerad2= 1515.0000 AK fiducial variables: yang = 0.0025 AK fiducial variables: radlen= 50.0000 Times(s): Spill= 2.400 Interspill= 2.300 Running time=0.4320E+08 Running time(hrs)=0.1200E+05 Using Br(K0L -> pi0,nu,nubar) = 0.3000E-10 Total N(K0L) after spoiler=0.1271E+16 Total neutron interactions=-1.000 Mode Generated Effy(wt) N/N(Kpnn) Nev(mode) dNeV(mode) Who kpnn 0.1200E+07 0.8062E-03 1.000 30.73 0.2410 MZ kpnn 0.1200E+07 0.3043E-02 1.000 116.0 0.4523 DJ kpnn 0.1200E+07 0.2898E-02 1.000 110.5 0.4499 AK basic kpnn 0.1200E+07 0.1904E-02 1.000 72.58 0.3651 AK loose kpnn 0.1200E+07 0.1680E-02 1.000 64.05 0.3430 AK lominal kpnn 0.1200E+07 0.1146E-02 1.000 43.68 0.2832 AK tight kpnn 0.1200E+07 0.7552E-03 1.000 28.79 0.2300 AK tighter kpnn 0.1200E+07 0.6531E-03 1.000 24.90 0.2141 AK tightest *ke4 0.5000E+07 0.1435E-10 0.3073E-01 0.9445 0.2269 MZ *ke4 0.5000E+07 0.3300E-10 0.1872E-01 2.172 0.9556 DJ *ke4 0.5000E+07 0.6076E-10 0.3620E-01 4.000 1.702 AK basic *ke4 0.5000E+07 0.5053E-10 0.4582E-01 3.326 1.692 AK loose *ke4 0.5000E+07 0.4645E-10 0.4774E-01 3.058 1.686 AK lominal *ke4 0.5000E+07 0.4214E-10 0.6352E-01 2.774 1.681 AK tight *ke4 0.5000E+07 0.1147E-10 0.2622E-01 0.7548 0.2027 AK tighter *ke4 0.5000E+07 0.1006E-10 0.2660E-01 0.6623 0.1872 AK tightest *ke3g 0.2900E+07 0.3044E-11 0.4443 13.66 8.125 MZ *ke3g 0.2900E+07 0.5879E-11 0.2273 26.37 10.83 DJ *ke3g 0.2900E+07 0.1004E-10 0.4077 45.05 12.96 AK basic *ke3g 0.2900E+07 0.4909E-11 0.3034 22.02 8.912 AK loose *ke3g 0.2900E+07 0.4721E-11 0.3306 21.18 8.877 AK lominal *ke3g 0.2900E+07 0.4012E-11 0.4121 18.00 8.552 AK tight *ke3g 0.2900E+07 0.2921E-11 0.4552 13.10 8.094 AK tighter *ke3g 0.2900E+07 0.2727E-11 0.4914 12.23 8.049 AK tightest *kcp3 0.5000E+07 0.1477E-07 0.7689E+05 0.2363E+07 0.2363E+07 MZ *kcp3 0.5000E+07 0.1477E-07 0.2037E+05 0.2363E+07 0.2363E+07 DJ *kcp3 0.5000E+07 0.1478E-07 0.2141E+05 0.2365E+07 0.2363E+07 AK basic *kcp3 0.5000E+07 0.1477E-07 0.3256E+05 0.2363E+07 0.2363E+07 AK loose *kcp3 0.5000E+07 0.1477E-07 0.3690E+05 0.2363E+07 0.2363E+07 AK lominal *kcp3 0.5000E+07 0.1477E-07 0.5411E+05 0.2363E+07 0.2363E+07 AK tight *kcp3 0.5000E+07 0.1477E-07 0.8208E+05 0.2363E+07 0.2363E+07 AK tighter *kcp3 0.5000E+07 0.1477E-07 0.9491E+05 0.2363E+07 0.2363E+07 AK tightest Key N(Kpnn)/B d(S/B) Nev dNeV bkgd 0.1301E-04 0.1301E-04 0.2363E+07 0.2363E+07 MZ bkgd 0.4910E-04 0.4910E-04 0.2363E+07 0.2363E+07 DJ bkgd 0.4671E-04 0.4667E-04 0.2365E+07 0.2363E+07 AK basic bkgd 0.3071E-04 0.3070E-04 0.2363E+07 0.2363E+07 AK loose bkgd 0.2710E-04 0.2710E-04 0.2363E+07 0.2363E+07 AK lominal bkgd 0.1848E-04 0.1848E-04 0.2363E+07 0.2363E+07 AK tight bkgd 0.1218E-04 0.1218E-04 0.2363E+07 0.2363E+07 AK tighter bkgd 0.1054E-04 0.1054E-04 0.2363E+07 0.2363E+07 AK tightest properties of high weight events: ke4 EVTwt=0.6994E-04 event= 1074 PrecK= 381.2 Ptrue=381 pi-(KE=1.4) dif, KE=7.0 mu- has Thit=18.3, e+ (KE=9.6) hits US wall would be removed by low momentum P(K)>400 MeV/c cut ke3g EVTwt=0.3598E-05 PrecK= 373.9 ZrecK= 1245.7 event= 3428 pi(KE=5MeV) dif, mu-(9.2MeV) Thit=20.3 would be removed by PK cut ke3g EVTwt=0.2754E-05 PrecK= 633.3 ZrecK= 1273.6 event= 4053 Ptrue= 598 Ztrue 1129 183 MeV pi- DIF, 116 mu-, Thit=-7.0ns mis-reconstructed ZK,PK ke3g EVTwt=0.1318E-05 PrecK= 802.5 ZrecK= 1124.9 event= 5258 Ptrue 814 1131 1.6 MeV pi- DIF, 4.0 MeV mu-, Thit = 18.75 ke3g EVTwt=0.4926E-05 PrecK= 499.5 ZrecK= 1357.9 event= 2674 Ptrue 499 Ztrue 1357 1.3 MeV pi- DIF, 3.2 MeV mu-, Thit = 26.21 kcp3 EVTwt=0.7385E-01 PrecK= 233.0 ZrecK= 1226.0 event= 38860 0.4 MeV pi+ DIF, 3.6 MeV mu+, Thit = 39.01 ns 2.6 MeV pi- DIF, 1.3 MeV mu-, Thit = 47.80 Event from hell. Would be removed by PK cut. kcp3 EVTwt=0.8082E-06 PrecK= 450.4 ZrecK= 1224.3 event= 15758 4.3 MeV pi+, Thit = 18.5ns 19.1 MeV pi- DIF, 7.0 MeV mu-, Thit = 6.9 add PK > 400 MeV/c cut for all cut sets add Thit vs PK plots source/setupanal.f - modified "add RemoveUpperPKcut" source/flags.inc - modified "add RemoveUpperPKcut" source/select_signal.f - modified "add RemoveUpperPKcut for MZ cuts" source/akira.offline.f - modified "add RemoveUpperPKcut for AK cuts" source/bookanal.f - modified "add PK vs Thit plot" source/fillanal.f - modified "add PK vs Thit plot" set CPvetogate to -4e20,+16e20. test: Log file /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.one.ke3g.ke4.kcp3.aspect1.bryman.180804.1141.log Log file name is /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.one.ke3g.ke4.kcp3.aspect1.bryman.180804.1141.log Histogram file ../ntuples/anal.one.ke3g.ke4.kcp3.aspect1.bryman.180804.1141.rzn Start time is Wed Aug 18 11:41:21 EDT 2004 Finish time is Wed Aug 18 11:43:21 EDT 2004 List of ntuples 109 Aug 8 02:03 one.ke3g.ke4.kcp3.aspect1.bryman.list Updated Akira OFFLINE fcn being used Using CV model 3 with PV boost Using CV model 3 with CV wrapper thickness= 1.00 mg/cm^2, Energy threshold=0.500E-01 MeV Using CV model 3 with OPTIMISTIC INEFFYS Charged particle veto gate in ns = (-.400E+21 ,0.160E+22) Use beta=1 for chgd tracks for evaluating CPV ineffy Process ONLY 2g fits Using AvdS photon veto with threshold= 3.000 MeV and exponent= 1.800 Use energy-dependent ineffy catcher model 1 Use charge veto approximation for annihilating e+ Allow vetoes thru US beam pipe in US wall. Thickness(US veto)= 80.00 X0(US veto)= 17.12 RL(US veto) in cm= 4.67 Require cos(Glo,Ghi) < 0.940 to veto on lower energy gamma from e+ annihilation Supplement Zeller cuts with Konaka wrap-around cuts Supplement Zeller cuts with Konaka slow Kpi3 cuts Remove upper P(K) cuts from MZ and AK cuts Vacuum vessel radius= 115.00 Z(US endplate)=1025.00 Z(DS endplate)=1414.00 1090.00 < Z(recon K0L) < 1365.00 X_0(PR)= 50.0 N(rad.lens in PR)= 2.0 AK fiducial variables: zcut1= 1090.0000 AK fiducial variables: zcut2= 1365.0000 AK fiducial variables: zcal = 1557.6666 AK fiducial variables: zhole= 1515.0000 AK fiducial variables: zprerad= 1415.0000 AK fiducial variables: zprerad2= 1515.0000 AK fiducial variables: yang = 0.0025 AK fiducial variables: radlen= 50.0000 Times(s): Spill= 2.400 Interspill= 2.300 Running time=0.4320E+08 Running time(hrs)=0.1200E+05 Using Br(K0L -> pi0,nu,nubar) = 0.3000E-10 Total N(K0L) after spoiler=0.1271E+16 Total neutron interactions=-1.000 Mode Generated Effy(wt) N/N(Kpnn) Nev(mode) dNeV(mode) Who *ke3g 0.1000E+06 0.5502E-13 0.000 0.2468 0.4088E-01 MZ *ke3g 0.1000E+06 0.1560E-12 0.000 0.6998 0.6765E-01 DJ *ke3g 0.1000E+06 0.2236E-12 0.000 1.003 0.8465E-01 AK basic *ke3g 0.1000E+06 0.1116E-12 0.000 0.5008 0.5989E-01 AK loose *ke3g 0.1000E+06 0.9467E-13 0.000 0.4247 0.5410E-01 AK lominal *ke3g 0.1000E+06 0.6451E-13 0.000 0.2894 0.4421E-01 AK tight *ke3g 0.1000E+06 0.4742E-13 0.000 0.2127 0.3903E-01 AK tighter *ke3g 0.1000E+06 0.4052E-13 0.000 0.1818 0.3451E-01 AK tightest *ke4 0.1000E+06 0.4382E-12 0.000 0.2885E-01 0.1033E-01 MZ *ke4 0.1000E+06 0.8496E-12 0.000 0.5592E-01 0.1415E-01 DJ *ke4 0.1000E+06 0.1306E-10 0.000 0.8593 0.7544 AK basic *ke4 0.1000E+06 0.7183E-12 0.000 0.4728E-01 0.1292E-01 AK loose *ke4 0.1000E+06 0.7141E-12 0.000 0.4700E-01 0.1292E-01 AK lominal *ke4 0.1000E+06 0.5372E-12 0.000 0.3536E-01 0.1113E-01 AK tight *ke4 0.1000E+06 0.4643E-12 0.000 0.3056E-01 0.1051E-01 AK tighter *ke4 0.1000E+06 0.3912E-12 0.000 0.2575E-01 0.1000E-01 AK tightest *kcp3 0.1000E+06 0.4657E-14 0.000 0.7451 0.2691 MZ *kcp3 0.1000E+06 0.1410E-13 0.000 2.256 0.5121 DJ *kcp3 0.1000E+06 0.1579E-12 0.000 25.26 1.893 AK basic *kcp3 0.1000E+06 0.2139E-13 0.000 3.423 0.6867 AK loose *kcp3 0.1000E+06 0.2139E-13 0.000 3.423 0.6867 AK lominal *kcp3 0.1000E+06 0.1096E-13 0.000 1.753 0.4635 AK tight *kcp3 0.1000E+06 0.5973E-14 0.000 0.9555 0.3821 AK tighter *kcp3 0.1000E+06 0.4067E-14 0.000 0.6507 0.3350 AK tightest Key N(Kpnn)/B d(S/B) Nev dNeV bkgd 0.000 0.000 1.021 0.2723 MZ bkgd 0.000 0.000 3.011 0.5167 DJ bkgd 0.000 0.000 27.12 2.040 AK basic bkgd 0.000 0.000 3.971 0.6894 AK loose bkgd 0.000 0.000 3.894 0.6890 AK lominal bkgd 0.000 0.000 2.078 0.4657 AK tight bkgd 0.000 0.000 1.199 0.3842 AK tighter bkgd 0.000 0.000 0.8582 0.3369 AK tightest ok, big job: Log file name is ../log/anal.kpnn.ke3g.ke4.kcp3.aspect1.bryman.180804.1156.log Histogram file ../ntuples/anal.kpnn.ke3g.ke4.kcp3.aspect1.bryman.180804.1156.rzn Start time is Wed Aug 18 11:56:22 EDT 2004 Finish time is Wed Aug 18 13:48:05 EDT 2004 List of ntuples 5105 Aug 17 16:44 kpnn.ke3g.ke4.kcp3.aspect1.bryman.list Updated Akira OFFLINE fcn being used Using CV model 3 with PV boost Using CV model 3 with CV wrapper thickness= 1.00 mg/cm^2, Energy threshold=0.500E-01 MeV Using CV model 3 with OPTIMISTIC INEFFYS Charged particle veto gate in ns = (-.400E+21 ,0.160E+22) Use beta=1 for chgd tracks for evaluating CPV ineffy Process ONLY 2g fits Using AvdS photon veto with threshold= 3.000 MeV and exponent= 1.800 Use energy-dependent ineffy catcher model 1 Use charge veto approximation for annihilating e+ Allow vetoes thru US beam pipe in US wall. Thickness(US veto)= 80.00 X0(US veto)= 17.12 RL(US veto) in cm= 4.67 Require cos(Glo,Ghi) < 0.940 to veto on lower energy gamma from e+ annihilation Supplement Zeller cuts with Konaka wrap-around cuts Supplement Zeller cuts with Konaka slow Kpi3 cuts Remove upper P(K) cuts from MZ and AK cuts Vacuum vessel radius= 115.00 Z(US endplate)=1025.00 Z(DS endplate)=1414.00 1090.00 < Z(recon K0L) < 1365.00 X_0(PR)= 50.0 N(rad.lens in PR)= 2.0 AK fiducial variables: zcut1= 1090.0000 AK fiducial variables: zcut2= 1365.0000 AK fiducial variables: zcal = 1557.6666 AK fiducial variables: zhole= 1515.0000 AK fiducial variables: zprerad= 1415.0000 AK fiducial variables: zprerad2= 1515.0000 AK fiducial variables: yang = 0.0025 AK fiducial variables: radlen= 50.0000 Times(s): Spill= 2.400 Interspill= 2.300 Running time=0.4320E+08 Running time(hrs)=0.1200E+05 Using Br(K0L -> pi0,nu,nubar) = 0.3000E-10 Total N(K0L) after spoiler=0.1271E+16 Total neutron interactions=-1.000 Mode Generated Effy(wt) N/N(Kpnn) Nev(mode) dNeV(mode) Who kpnn 0.1200E+07 0.8040E-03 1.000 30.65 0.2406 MZ kpnn 0.1200E+07 0.3028E-02 1.000 115.5 0.4506 DJ kpnn 0.1200E+07 0.2891E-02 1.000 110.2 0.4491 AK basic kpnn 0.1200E+07 0.1899E-02 1.000 72.40 0.3644 AK loose kpnn 0.1200E+07 0.1676E-02 1.000 63.89 0.3424 AK lominal kpnn 0.1200E+07 0.1143E-02 1.000 43.56 0.2827 AK tight kpnn 0.1200E+07 0.7536E-03 1.000 28.73 0.2297 AK tighter kpnn 0.1200E+07 0.6518E-03 1.000 24.85 0.2138 AK tightest *ke4 0.5000E+07 0.1265E-10 0.2716E-01 0.8324 0.2263 MZ *ke4 0.5000E+07 0.1652E-10 0.9419E-02 1.087 0.2548 DJ *ke4 0.5000E+07 0.3211E-10 0.1918E-01 2.113 0.3582 AK basic *ke4 0.5000E+07 0.2302E-10 0.2093E-01 1.515 0.3109 AK loose *ke4 0.5000E+07 0.1897E-10 0.1954E-01 1.249 0.2718 AK lominal *ke4 0.5000E+07 0.1531E-10 0.2314E-01 1.008 0.2438 AK tight *ke4 0.5000E+07 0.1034E-10 0.2370E-01 0.6809 0.2023 AK tighter *ke4 0.5000E+07 0.8973E-11 0.2377E-01 0.5907 0.1868 AK tightest *ke3g 0.2900E+07 0.4347E-13 0.6362E-02 0.1950 0.6793E-02 MZ *ke3g 0.2900E+07 0.1473E-12 0.5725E-02 0.6610 0.1432E-01 DJ *ke3g 0.2900E+07 0.2224E-12 0.9052E-02 0.9975 0.1735E-01 AK basic *ke3g 0.2900E+07 0.9542E-13 0.5912E-02 0.4280 0.1121E-01 AK loose *ke3g 0.2900E+07 0.8349E-13 0.5862E-02 0.3745 0.1018E-01 AK lominal *ke3g 0.2900E+07 0.6176E-13 0.6359E-02 0.2770 0.8874E-02 AK tight *ke3g 0.2900E+07 0.3951E-13 0.6170E-02 0.1772 0.6762E-02 AK tighter *ke3g 0.2900E+07 0.3511E-13 0.6339E-02 0.1575 0.6417E-02 AK tightest *kcp3 0.5000E+07 0.5816E-14 0.3036E-01 0.9306 0.4924E-01 MZ *kcp3 0.5000E+07 0.1294E-13 0.1792E-01 2.069 0.5892E-01 DJ *kcp3 0.5000E+07 0.1799E-12 0.2611 28.77 0.2896 AK basic *kcp3 0.5000E+07 0.1908E-13 0.4216E-01 3.053 0.9215E-01 AK loose *kcp3 0.5000E+07 0.1906E-13 0.4772E-01 3.049 0.9211E-01 AK lominal *kcp3 0.5000E+07 0.1112E-13 0.4082E-01 1.778 0.6863E-01 AK tight *kcp3 0.5000E+07 0.5156E-14 0.2871E-01 0.8249 0.4679E-01 AK tighter *kcp3 0.5000E+07 0.3497E-14 0.2251E-01 0.5594 0.3742E-01 AK tightest Key N(Kpnn)/B d(S/B) Nev dNeV bkgd 15.65 1.856 1.958 0.2317 MZ bkgd 30.24 2.078 3.818 0.2619 DJ bkgd 3.456 0.5190E-01 31.89 0.4609 AK basic bkgd 14.49 0.9440 4.996 0.3244 AK loose bkgd 13.67 0.8439 4.672 0.2872 AK lominal bkgd 14.22 1.180 3.063 0.2534 AK tight bkgd 17.07 2.111 1.683 0.2077 AK tighter bkgd 19.00 2.775 1.308 0.1907 AK tightest very slight reduction in rates due to P(K) cut set CPVetoGate = (-4,+16) WRONG!!! INFINITE GATE USED!!!! % analysis.script kpnn.ke3g.ke4.kcp3.aspect1.bryman.list ../geometry/detector.22.dat & Log file /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.kpnn.ke3g.ke4.kcp3.aspect1.bryman.180804.1357.log Log file name is ../log/anal.kpnn.ke3g.ke4.kcp3.aspect1.bryman.180804.1156.log Histogram file ../ntuples/anal.kpnn.ke3g.ke4.kcp3.aspect1.bryman.180804.1156.rzn Start time is Wed Aug 18 11:56:22 EDT 2004 Finish time is Wed Aug 18 13:48:05 EDT 2004 List of ntuples 5105 Aug 17 16:44 kpnn.ke3g.ke4.kcp3.aspect1.bryman.list Updated Akira OFFLINE fcn being used Using CV model 3 with PV boost Using CV model 3 with CV wrapper thickness= 1.00 mg/cm^2, Energy threshold=0.500E-01 MeV Using CV model 3 with OPTIMISTIC INEFFYS Charged particle veto gate in ns = (-.400E+21 ,0.160E+22) Use beta=1 for chgd tracks for evaluating CPV ineffy Process ONLY 2g fits Using AvdS photon veto with threshold= 3.000 MeV and exponent= 1.800 Use energy-dependent ineffy catcher model 1 Use charge veto approximation for annihilating e+ Allow vetoes thru US beam pipe in US wall. Thickness(US veto)= 80.00 X0(US veto)= 17.12 RL(US veto) in cm= 4.67 Require cos(Glo,Ghi) < 0.940 to veto on lower energy gamma from e+ annihilation Supplement Zeller cuts with Konaka wrap-around cuts Supplement Zeller cuts with Konaka slow Kpi3 cuts Remove upper P(K) cuts from MZ and AK cuts Vacuum vessel radius= 115.00 Z(US endplate)=1025.00 Z(DS endplate)=1414.00 1090.00 < Z(recon K0L) < 1365.00 X_0(PR)= 50.0 N(rad.lens in PR)= 2.0 AK fiducial variables: zcut1= 1090.0000 AK fiducial variables: zcut2= 1365.0000 AK fiducial variables: zcal = 1557.6666 AK fiducial variables: zhole= 1515.0000 AK fiducial variables: zprerad= 1415.0000 AK fiducial variables: zprerad2= 1515.0000 AK fiducial variables: yang = 0.0025 AK fiducial variables: radlen= 50.0000 Times(s): Spill= 2.400 Interspill= 2.300 Running time=0.4320E+08 Running time(hrs)=0.1200E+05 Using Br(K0L -> pi0,nu,nubar) = 0.3000E-10 Total N(K0L) after spoiler=0.1271E+16 Total neutron interactions=-1.000 Mode Generated Effy(wt) N/N(Kpnn) Nev(mode) dNeV(mode) Who kpnn 0.1200E+07 0.8040E-03 1.000 30.65 0.2406 MZ kpnn 0.1200E+07 0.3028E-02 1.000 115.5 0.4506 DJ kpnn 0.1200E+07 0.2891E-02 1.000 110.2 0.4491 AK basic kpnn 0.1200E+07 0.1899E-02 1.000 72.40 0.3644 AK loose kpnn 0.1200E+07 0.1676E-02 1.000 63.89 0.3424 AK lominal kpnn 0.1200E+07 0.1143E-02 1.000 43.56 0.2827 AK tight kpnn 0.1200E+07 0.7536E-03 1.000 28.73 0.2297 AK tighter kpnn 0.1200E+07 0.6518E-03 1.000 24.85 0.2138 AK tightest *ke4 0.5000E+07 0.1265E-10 0.2716E-01 0.8324 0.2263 MZ *ke4 0.5000E+07 0.1652E-10 0.9419E-02 1.087 0.2548 DJ *ke4 0.5000E+07 0.3211E-10 0.1918E-01 2.113 0.3582 AK basic *ke4 0.5000E+07 0.2302E-10 0.2093E-01 1.515 0.3109 AK loose *ke4 0.5000E+07 0.1897E-10 0.1954E-01 1.249 0.2718 AK lominal *ke4 0.5000E+07 0.1531E-10 0.2314E-01 1.008 0.2438 AK tight *ke4 0.5000E+07 0.1034E-10 0.2370E-01 0.6809 0.2023 AK tighter *ke4 0.5000E+07 0.8973E-11 0.2377E-01 0.5907 0.1868 AK tightest *ke3g 0.2900E+07 0.4347E-13 0.6362E-02 0.1950 0.6793E-02 MZ *ke3g 0.2900E+07 0.1473E-12 0.5725E-02 0.6610 0.1432E-01 DJ *ke3g 0.2900E+07 0.2224E-12 0.9052E-02 0.9975 0.1735E-01 AK basic *ke3g 0.2900E+07 0.9542E-13 0.5912E-02 0.4280 0.1121E-01 AK loose *ke3g 0.2900E+07 0.8349E-13 0.5862E-02 0.3745 0.1018E-01 AK lominal *ke3g 0.2900E+07 0.6176E-13 0.6359E-02 0.2770 0.8874E-02 AK tight *ke3g 0.2900E+07 0.3951E-13 0.6170E-02 0.1772 0.6762E-02 AK tighter *ke3g 0.2900E+07 0.3511E-13 0.6339E-02 0.1575 0.6417E-02 AK tightest *kcp3 0.5000E+07 0.5816E-14 0.3036E-01 0.9306 0.4924E-01 MZ *kcp3 0.5000E+07 0.1294E-13 0.1792E-01 2.069 0.5892E-01 DJ *kcp3 0.5000E+07 0.1799E-12 0.2611 28.77 0.2896 AK basic *kcp3 0.5000E+07 0.1908E-13 0.4216E-01 3.053 0.9215E-01 AK loose *kcp3 0.5000E+07 0.1906E-13 0.4772E-01 3.049 0.9211E-01 AK lominal *kcp3 0.5000E+07 0.1112E-13 0.4082E-01 1.778 0.6863E-01 AK tight *kcp3 0.5000E+07 0.5156E-14 0.2871E-01 0.8249 0.4679E-01 AK tighter *kcp3 0.5000E+07 0.3497E-14 0.2251E-01 0.5594 0.3742E-01 AK tightest Key N(Kpnn)/B d(S/B) Nev dNeV bkgd 15.65 1.856 1.958 0.2317 MZ bkgd 30.24 2.078 3.818 0.2619 DJ bkgd 3.456 0.5190E-01 31.89 0.4609 AK basic bkgd 14.49 0.9440 4.996 0.3244 AK loose bkgd 13.67 0.8439 4.672 0.2872 AK lominal bkgd 14.22 1.180 3.063 0.2534 AK tight bkgd 17.07 2.111 1.683 0.2077 AK tighter bkgd 19.00 2.775 1.308 0.1907 AK tightest hmm, rates are the same as the infinite gate?? YES. CUZ INFINITE GATE WAS USED CPVetoGate=-4,+8ns Log file /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.kpnn.ke3g.ke4.kcp3.aspect1.bryman.180804.1750.log ********************************************* Thu Aug 19 09:59:46 EDT 2004 Log file name is /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.kpnn.ke3g.ke4.kcp3.aspect1.bryman.180804.1750.log Histogram file ../ntuples/anal.kpnn.ke3g.ke4.kcp3.aspect1.bryman.180804.1750.rzn Start time is Wed Aug 18 17:50:42 EDT 2004 Finish time is Wed Aug 18 19:41:10 EDT 2004 List of ntuples 5105 Aug 17 16:44 kpnn.ke3g.ke4.kcp3.aspect1.bryman.list Updated Akira OFFLINE fcn being used Using CV model 3 with PV boost Using CV model 3 with CV wrapper thickness= 1.00 mg/cm^2, Energy threshold=0.500E-01 MeV Using CV model 3 with OPTIMISTIC INEFFYS Charged particle veto gate in ns = (-4.00 , 8.00 ) Use beta=1 for chgd tracks for evaluating CPV ineffy Process ONLY 2g fits Using AvdS photon veto with threshold= 3.000 MeV and exponent= 1.800 Use energy-dependent ineffy catcher model 1 Use charge veto approximation for annihilating e+ Allow vetoes thru US beam pipe in US wall. Thickness(US veto)= 80.00 X0(US veto)= 17.12 RL(US veto) in cm= 4.67 Require cos(Glo,Ghi) < 0.940 to veto on lower energy gamma from e+ annihilation Supplement Zeller cuts with Konaka wrap-around cuts Supplement Zeller cuts with Konaka slow Kpi3 cuts Remove upper P(K) cuts from MZ and AK cuts Vacuum vessel radius= 115.00 Z(US endplate)=1025.00 Z(DS endplate)=1414.00 1090.00 < Z(recon K0L) < 1365.00 X_0(PR)= 50.0 N(rad.lens in PR)= 2.0 AK fiducial variables: zcut1= 1090.0000 AK fiducial variables: zcut2= 1365.0000 AK fiducial variables: zcal = 1557.6666 AK fiducial variables: zhole= 1515.0000 AK fiducial variables: zprerad= 1415.0000 AK fiducial variables: zprerad2= 1515.0000 AK fiducial variables: yang = 0.0025 AK fiducial variables: radlen= 50.0000 Times(s): Spill= 2.400 Interspill= 2.300 Running time=0.4320E+08 Running time(hrs)=0.1200E+05 Using Br(K0L -> pi0,nu,nubar) = 0.3000E-10 Total N(K0L) after spoiler=0.1271E+16 Total neutron interactions=-1.000 Mode Generated Effy(wt) N/N(Kpnn) Nev(mode) dNeV(mode) Who kpnn 0.1200E+07 0.8040E-03 1.000 30.65 0.2406 MZ kpnn 0.1200E+07 0.3028E-02 1.000 115.5 0.4506 DJ kpnn 0.1200E+07 0.2891E-02 1.000 110.2 0.4491 AK basic kpnn 0.1200E+07 0.1899E-02 1.000 72.40 0.3644 AK loose kpnn 0.1200E+07 0.1676E-02 1.000 63.89 0.3424 AK lominal kpnn 0.1200E+07 0.1143E-02 1.000 43.56 0.2827 AK tight kpnn 0.1200E+07 0.7536E-03 1.000 28.73 0.2297 AK tighter kpnn 0.1200E+07 0.6518E-03 1.000 24.85 0.2138 AK tightest *ke4 0.5000E+07 0.1275E-09 0.2738 8.390 3.728 MZ *ke4 0.5000E+07 0.1447E-07 8.250 952.4 944.4 DJ *ke4 0.5000E+07 0.1944E-09 0.1161 12.80 4.156 AK basic *ke4 0.5000E+07 0.1677E-09 0.1525 11.04 4.088 AK loose *ke4 0.5000E+07 0.1629E-09 0.1678 10.72 4.085 AK lominal *ke4 0.5000E+07 0.1481E-09 0.2238 9.750 4.057 AK tight *ke4 0.5000E+07 0.1155E-09 0.2647 7.604 3.697 AK tighter *ke4 0.5000E+07 0.1137E-09 0.3012 7.483 3.697 AK tightest *ke3g 0.2900E+07 0.1505E-10 2.203 67.51 15.05 MZ *ke3g 0.2900E+07 0.2322E-10 0.9020 104.1 19.80 DJ *ke3g 0.2900E+07 0.5325E-10 2.167 238.9 32.32 AK basic *ke3g 0.2900E+07 0.2364E-10 1.465 106.0 19.21 AK loose *ke3g 0.2900E+07 0.2211E-10 1.552 99.16 18.94 AK lominal *ke3g 0.2900E+07 0.1783E-10 1.836 79.98 17.42 AK tight *ke3g 0.2900E+07 0.1364E-10 2.129 61.17 15.03 AK tighter *ke3g 0.2900E+07 0.1123E-10 2.028 50.40 13.41 AK tightest *kcp3 0.5000E+07 0.8980E-11 46.88 1437. 448.3 MZ *kcp3 0.5000E+07 0.6412E-11 8.886 1026. 390.9 DJ *kcp3 0.5000E+07 0.4689E-07 0.6808E+05 0.7502E+07 0.4318E+07 AK basic *kcp3 0.5000E+07 0.1542E-07 0.3406E+05 0.2466E+07 0.2463E+07 AK loose *kcp3 0.5000E+07 0.1542E-07 0.3861E+05 0.2466E+07 0.2463E+07 AK lominal *kcp3 0.5000E+07 0.1541E-07 0.5658E+05 0.2465E+07 0.2463E+07 AK tight *kcp3 0.5000E+07 0.1540E-07 0.8578E+05 0.2464E+07 0.2463E+07 AK tighter *kcp3 0.5000E+07 0.6507E-11 41.90 1041. 364.8 AK tightest Key N(Kpnn)/B d(S/B) Nev dNeV bkgd 0.2026E-01 0.6010E-02 1513. 448.5 MZ bkgd 0.5544E-01 0.2722E-01 2082. 1022. DJ bkgd 0.1469E-04 0.8455E-05 0.7503E+07 0.4318E+07 AK basic bkgd 0.2935E-04 0.2931E-04 0.2466E+07 0.2463E+07 AK loose bkgd 0.2590E-04 0.2586E-04 0.2466E+07 0.2463E+07 AK lominal bkgd 0.1767E-04 0.1766E-04 0.2465E+07 0.2463E+07 AK tight bkgd 0.1166E-04 0.1165E-04 0.2464E+07 0.2463E+07 AK tighter bkgd 0.2261E-01 0.7514E-02 1099. 365.1 AK tightest examine hi weight events for -4,8ns gate: ke4 EVTwt=0.9152E-04 PrecK= 435.4 ZrecK= 1272.6 4MeV pi-, Thit=8.4ns ke4 EVTwt=0.1060E-03 PrecK= 727.3 ZrecK= 1222.9 37MeV pi- DIF, 50MeV mu-, Thit = 8.04ns long flight path (Zdeath(pi-)=1599cm) ke4 EVTwt=0.2370E-03 PrecK= 515.7 ZrecK= 1228.2 5.6MeVpi- DIF, 10.1MeV mu-, Thit = 11.0ns ke4 EVTwt=0.3547E-04 PrecK= 867.2 ZrecK= 1242.6 35MeV pi- DIF, 17MeV mu-, Thit = 8.55ns ke4 EVTwt=0.7173E-01 PrecK= 608.3 ZrecK= 1180.3 19.3MeV pi- DIF, 12.5 MeV mu-, Thit = 11.6ns ke3g EVTwt=0.2806E-05 PrecK= 848.7 ZrecK= 1219.5 event= 175 Ptrue 806 Ztrue 1114 21.6MeV pi-, Thit=9.9ns ke3g EVTwt=0.4230E-05 PrecK= 1122.0 ZrecK= 1101.6 1146 1085 28MeV pi-, Thit = 9.1ns ke3g EVTwt=0.1334E-05 PrecK= 569.2 ZrecK= 1300.7 564 1302 2.7MeV pi-, 6.9MeV mu-, Thit=14.5ns ke3g EVTwt=0.1994E-05 PrecK= 623.0 ZrecK= 1178.5 618 1124 3.4MeV pi-, 5.5MeV mu-, Thit = 10.5ns EVTwt=0.1562E-05 PrecK= 735.1 ZrecK= 1200.0 event 1281 730 1187 10.9MeV pi-, Thit = 12.3ns EVTwt=0.3426E-05 PrecK= 640.1 ZrecK= 1166.6 634 1162 18.3MeV pi- DIF, 7.9MeV mu-, Thit=14.45ns other similar ke3g events...either low KE pi- or mis-recon ZK kcp3 EVTwt=0.5059E-05 PK= 606.3 ZrecK= 1138.1 610 1163 39Mev pi+ DIF, 52MeV mu+, 9.32ns kcp3 bkgd low KE pi+- and/or DIF use Mnu2-dependent gate: Log file /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.kpnn.ke3g.ke4.kcp3.aspect1.bryman.190804.1000.log Log file name is /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.kpnn.ke3g.ke4.kcp3.aspect1.bryman.190804.1000.log Histogram file ../ntuples/anal.kpnn.ke3g.ke4.kcp3.aspect1.bryman.190804.1000.rzn Start time is Thu Aug 19 10:00:59 EDT 2004 Finish time is Thu Aug 19 11:58:18 EDT 2004 List of ntuples 5105 Aug 17 16:44 kpnn.ke3g.ke4.kcp3.aspect1.bryman.list Updated Akira OFFLINE fcn being used Using CV model 3 with PV boost Using CV model 3 with CV wrapper thickness= 1.00 mg/cm^2, Energy threshold=0.500E-01 MeV Using CV model 3 with OPTIMISTIC INEFFYS Use Mnu2-dependent CPVetoGate width = (tlo,thi) ns defined as follows If Mnu2 < -.8000E+05 , then tlo= -2.000 , thi= 8.000 If Mnu2 > -.2000E+05 , then tlo= -4.000 , thi= 20.00 If -.8000E+05 < Mnu2 < -.2000E+05 , then tlo= -4.000 , thi is calculated by linear interp. btwn t= 8.000 at M nu2= -.8000E+05 and t= 20.00 at Mnu2= -.2000E+05 Use beta=1 for chgd tracks for evaluating CPV ineffy Process ONLY 2g fits Using AvdS photon veto with threshold= 3.000 MeV and exponent= 1.800 Use energy-dependent ineffy catcher model 1 Use charge veto approximation for annihilating e+ Allow vetoes thru US beam pipe in US wall. Thickness(US veto)= 80.00 X0(US veto)= 17.12 RL(US veto) in cm= 4.67 Require cos(Glo,Ghi) < 0.940 to veto on lower energy gamma from e+ annihilation Supplement Zeller cuts with Konaka wrap-around cuts Supplement Zeller cuts with Konaka slow Kpi3 cuts Remove upper P(K) cuts from MZ and AK cuts Vacuum vessel radius= 115.00 Z(US endplate)=1025.00 Z(DS endplate)=1414.00 1090.00 < Z(recon K0L) < 1365.00 X_0(PR)= 50.0 N(rad.lens in PR)= 2.0 AK fiducial variables: zcut1= 1090.0000 AK fiducial variables: zcut2= 1365.0000 AK fiducial variables: zcal = 1557.6666 AK fiducial variables: zhole= 1515.0000 AK fiducial variables: zprerad= 1415.0000 AK fiducial variables: zprerad2= 1515.0000 AK fiducial variables: yang = 0.0025 AK fiducial variables: radlen= 50.0000 Times(s): Spill= 2.400 Interspill= 2.300 Running time=0.4320E+08 Running time(hrs)=0.1200E+05 Using Br(K0L -> pi0,nu,nubar) = 0.3000E-10 Total N(K0L) after spoiler=0.1271E+16 Total neutron interactions=-1.000 Mode Generated Effy(wt) N/N(Kpnn) Nev(mode) dNeV(mode) Who kpnn 0.1200E+07 0.8040E-03 1.000 30.65 0.2406 MZ kpnn 0.1200E+07 0.3028E-02 1.000 115.5 0.4506 DJ kpnn 0.1200E+07 0.2891E-02 1.000 110.2 0.4491 AK basic kpnn 0.1200E+07 0.1899E-02 1.000 72.40 0.3644 AK loose kpnn 0.1200E+07 0.1676E-02 1.000 63.89 0.3424 AK lominal kpnn 0.1200E+07 0.1143E-02 1.000 43.56 0.2827 AK tight kpnn 0.1200E+07 0.7536E-03 1.000 28.73 0.2297 AK tighter kpnn 0.1200E+07 0.6518E-03 1.000 24.85 0.2138 AK tightest *ke4 0.5000E+07 0.1346E-10 0.2892E-01 0.8862 0.2266 MZ *ke4 0.5000E+07 0.1730E-10 0.9866E-02 1.139 0.2550 DJ *ke4 0.5000E+07 0.5866E-10 0.3504E-01 3.862 1.702 AK basic *ke4 0.5000E+07 0.4922E-10 0.4475E-01 3.240 1.692 AK loose *ke4 0.5000E+07 0.4516E-10 0.4653E-01 2.973 1.685 AK lominal *ke4 0.5000E+07 0.4129E-10 0.6239E-01 2.718 1.681 AK tight *ke4 0.5000E+07 0.1086E-10 0.2487E-01 0.7146 0.2025 AK tighter *ke4 0.5000E+07 0.9478E-11 0.2511E-01 0.6239 0.1870 AK tightest *ke3g 0.2900E+07 0.2182E-11 0.3194 9.790 7.748 MZ *ke3g 0.2900E+07 0.5658E-11 0.2199 25.38 10.54 DJ *ke3g 0.2900E+07 0.5419E-11 0.2206 24.31 9.498 AK basic *ke3g 0.2900E+07 0.2602E-11 0.1612 11.67 7.835 AK loose *ke3g 0.2900E+07 0.2414E-11 0.1695 10.83 7.795 AK lominal *ke3g 0.2900E+07 0.2201E-11 0.2266 9.872 7.748 AK tight *ke3g 0.2900E+07 0.1937E-11 0.3025 8.689 7.672 AK tighter *ke3g 0.2900E+07 0.1933E-11 0.3489 8.669 7.672 AK tightest *kcp3 0.5000E+07 0.7433E-14 0.3880E-01 1.189 0.2633 MZ *kcp3 0.5000E+07 0.1449E-13 0.2007E-01 2.318 0.2551 DJ *kcp3 0.5000E+07 0.2401E-11 3.486 384.1 200.2 AK basic *kcp3 0.5000E+07 0.2231E-13 0.4929E-01 3.569 0.3765 AK loose *kcp3 0.5000E+07 0.2228E-13 0.5580E-01 3.565 0.3765 AK lominal *kcp3 0.5000E+07 0.1434E-13 0.5267E-01 2.295 0.3715 AK tight *kcp3 0.5000E+07 0.6773E-14 0.3772E-01 1.084 0.2629 AK tighter *kcp3 0.5000E+07 0.5114E-14 0.3293E-01 0.8181 0.2614 AK tightest Key N(Kpnn)/B d(S/B) Nev dNeV bkgd 2.583 1.689 11.87 7.755 MZ bkgd 4.003 1.464 28.84 10.54 DJ bkgd 0.2673 0.1300 412.3 200.5 AK basic bkgd 3.917 1.701 18.48 8.025 AK loose bkgd 3.679 1.691 17.37 7.984 AK lominal bkgd 2.927 1.561 14.88 7.937 AK tight bkgd 2.739 2.006 10.49 7.679 AK tighter bkgd 2.457 1.866 10.11 7.678 AK tightest bkgd dominated by ke3g. look at hi weight events: ke3g EVTwt=0.2754E-05 PrecK= 633.3 ZrecK= 1273.6 event= 4053 Ptrue= 598 Ztrue 1129 183 MeV pi- DIF, 116 mu-, Thit=-7.0ns mis-reconstructed ZK,PK ke3g EVTwt=0.2968E-05 PrecK= 722.7 ZrecK= 1274.2 event= 1294 696 1197 162 MeV pi- DIF, 57 MeV mu-, Thit = -2.26ns Mnu2= -.1288E+06 CVGate(low) -2.000 CVgate(high)= 8.000 mis-reconstructed ZK, just outside gate ke3g EVTwt=0.1670E-05 PrecK= 1331.7 ZrecK= 1322.1 event= 1720 1359 1184 367 MeV pi-, Thit = -3.92ns Mnu2= -.2683E+06 CVGate(low) -2.000 CVgate(high)= 8.000 mis-reconstructed ZK ke3g EVTwt=0.1188E-05 PrecK= 1274.0 ZrecK= 1290.9 event= 1443 1261 1162 420 MeV pi-, Thit = -3.84ns Mnu2= -.1883E+06 CVGate(low) -2.000 CVgate(high)= 8.000 mis-reconstructed ZK ke3g EVTwt=0.4926E-05 PrecK= 499.5 ZrecK= 1357.9 event= 2674 499 1357 1.3 MeV pi- DIF, 3.2 MeV mu-, Thit = 26.2ns Mnu2= 1029. CVGate(low) -4.000 CVgate(high)= 20.00 very slow track. Mnu2<0 cut would eliminate 4/5 have mis-recon ZK. 3/4 are just outside gate. 1/5 has very slow pi-/mu-. Mnu2<0 cut would eliminate. now move CV to 200,200 cm use Mnu2-dependent gate Log file /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.kpnn.ke3g.ke4.kcp3.aspect1.bryman.190804.1300.log hi weight events this ke4 looks like it is due to a bug. why no hit time for pi-????? ANAL: Open ../ntuples/ke4.121069.41.rzn.ntskim with 41270 ntuple entries SELECT_SIGNAL:Ntrack= 7 Nrecon= 1 irec= 1 icut= 4 AKcut= -2 EVTwt=0.6436E-01 CPwt=0.6460 VEwt= 1.000 DKwt=0.9962E-01 Pre cK= 791.9 ZrecK= 1121.6 event= 32831 SELECT_SIGNAL: Mgg E1* E2* Epi* E1 E2 Mmiss Emiss DOCA T1-T2 SELECT_SIGNAL: 116.8 110.7 109.2 219.9 299.4 321.4 216.8 314.5 0.5453E-04 0.000 SELECT_SIGNAL:Mnu2= -.2130E+05 CVGate(low) -4.000 CVgate(high)= 19.74 SELECT_SIGNAL:Track# 1 2 3 4 5 6 7 LastVol, LastPlane 2 6 2 6 2 3 2 3 2 1 4 6 4 6 SELECT_SIGNAL:PathLn -1.000 -1.000 -1.000 -1.000 -1.000 106.4 103.1 SELECT_SIGNAL:PV(E) 0.2500E-04 0.2500E-04 0.5473E-04 0.1108E-02 0.4235E-02 0.3954E-04 0.3325E-04 SELECT_SIGNAL:KAMIPV 0.3516E-05 0.6600E-05 0.3132E-04 0.1909E-03 0.4342E-03 0.2086E-04 0.1683E-04 SELECT_SIGNAL:PVE787 0.2500E-04 0.2500E-04 0.6974E-04 0.2947E-02 0.1323E-01 0.4486E-04 0.3597E-04 SELECT_SIGNAL:Edeath 931.69 612.29 216.85 64.99 37.57 297.30 319.23 SELECT_SIGNAL:Ebirth 931.69 612.29 216.85 64.99 37.57 284.29 328.00 SELECT_SIGNAL:Pdeath 787.64 597.23 165.96 64.99 37.57 297.30 319.23 SELECT_SIGNAL: KE 434.02 477.31 77.28 64.48 37.57 297.30 319.23 SELECT_SIGNAL:Xdeath -27.84 -27.84 -58.74 -68.10 134.37 -108.92 23.69 SELECT_SIGNAL:Ydeath -0.20 -0.20 -200.00 -200.00 200.00 65.62 48.95 SELECT_SIGNAL:Zdeath 1127.15 1127.15 1388.17 1375.80 1292.80 1415.00 1415.00 Fate, Parent Type 1 0 K0L 1 1 pi0 2 1 pi- 2 1 e+ 2 1 nu 2 2 gamm 2 2 gamm SELECT_SIGNAL:Weight 0.9962E-01 1.000 1.000 1.000 1.000 1.000 1.000 SELECT_SIGNAL: WT = 0.9962E-01 1.000 1.000 1.000 1.000 1.000 1.000 SELECT_SIGNAL: CP = 1.000 1.000 1.000 1.000 1.000 0.8088 0.7987 SELECT_SIGNAL: VE = 1.000 1.000 1.000 1.000 1.000 0.3879E-04 0.2994E-04 SELECT_SIGNAL:Thit = 0.000 0.000 0.000 0.000 0.000 0.000 0.000 SELECT_SIGNAL:EffRec 0.6436E-01 SELECT_SIGNAL:RecItk 6 7 ../ntuples/ke4.121057.41.rzn.ntskim SELECT_SIGNAL:Ntrack= 7 Nrecon= 1 irec= 1 icut= 4 AKcut= -2 EVTwt=0.8041E-01 CPwt=0.6718 VEwt= 1.000 DKwt=0.1197 Pre cK= 466.7 ZrecK= 1180.3 event= 14405 SELECT_SIGNAL: Mgg E1* E2* Epi* E1 E2 Mmiss Emiss DOCA T1-T2 SELECT_SIGNAL: 138.2 99.48 113.1 212.6 221.3 193.0 233.0 268.0 0.7618E-05 0.000 SELECT_SIGNAL:Mnu2= -1016. CVGate(low) -4.000 CVgate(high)= 20.00 SELECT_SIGNAL:Track# 1 2 3 4 5 6 7 LastVol, LastPlane 2 6 2 6 2 2 2 4 2 4 4 6 4 6 SELECT_SIGNAL:PathLn -1.000 -1.000 -1.000 -1.000 -1.000 101.5 120.4 SELECT_SIGNAL:PV(E) 0.2500E-04 0.2500E-04 0.5852E-04 0.3038E-02 0.1882E-01 0.6055E-04 0.6423E-04 SELECT_SIGNAL:KAMIPV 0.5607E-05 0.1204E-04 0.3267E-04 0.3384E-03 0.4000E-02 0.3340E-04 0.3473E-04 SELECT_SIGNAL:PVE787 0.2500E-04 0.2500E-04 0.7745E-04 0.8078E-02 0.1372 0.8170E-04 0.8963E-04 SELECT_SIGNAL:Edeath 682.59 410.15 210.81 44.36 17.25 223.77 195.77 SELECT_SIGNAL:Ebirth 682.59 410.15 210.81 44.36 17.25 207.74 202.41 SELECT_SIGNAL:Pdeath 467.17 387.31 158.00 44.36 17.25 223.77 195.77 SELECT_SIGNAL: KE 184.91 275.18 71.24 43.85 17.25 223.77 195.77 SELECT_SIGNAL:Xdeath -8.81 -8.81 200.00 -200.00 -200.00 22.28 -143.25 SELECT_SIGNAL:Ydeath -0.37 -0.37 118.43 182.55 -186.89 -25.98 -82.39 SELECT_SIGNAL:Zdeath 1181.11 1181.11 1376.48 1198.86 1035.56 1415.00 1415.00 Fate, Parent Type 1 0 K0L 1 1 pi0 2 1 pi+ 2 1 e- 2 1 nu 2 2 gamm 2 2 gamm SELECT_SIGNAL:Weight 0.1197 1.000 1.000 1.000 1.000 1.000 1.000 SELECT_SIGNAL: WT = 0.1197 1.000 1.000 1.000 1.000 1.000 1.000 SELECT_SIGNAL: CP = 1.000 1.000 1.000 1.000 1.000 0.7939 0.8462 SELECT_SIGNAL: VE = 1.000 1.000 1.000 1.000 1.000 0.6855E-04 0.7187E-04 SELECT_SIGNAL:Thit = 0.000 0.000 0.000 0.000 0.000 0.000 0.000 SELECT_SIGNAL:EffRec 0.8041E-01 SELECT_SIGNAL:RecItk 6 7 found another ke4 like this one. looks like when Xdeath or Ydeath=200 there is a problem found many ke3g with same problem. must be a mistake in my tests in positionatcv try use X,Y = 199.9, 199.9 bnlku24_djaffe[27]% echo "../ntuples/ke4.121069.41.rzn.ntskim" > test.list bnlku24_djaffe[28]% cat test.list ../ntuples/ke4.121069.41.rzn.ntskim bnlku24_djaffe[29]% analysis.script test.list ../geometry/detector.22.dat & Log file /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.test.190804.1531.log seems to have fixed the pb. try another long job: Log file /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.kpnn.ke3g.ke4.kcp3.aspect1.bryman.190804.1533.log Log file name is /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.kpnn.ke3g.ke4.kcp3.aspect1.bryman.190804.1533.log Histogram file ../ntuples/anal.kpnn.ke3g.ke4.kcp3.aspect1.bryman.190804.1533.rzn Start time is Thu Aug 19 15:33:46 EDT 2004 Finish time is Thu Aug 19 17:26:21 EDT 2004 List of ntuples 5105 Aug 17 16:44 kpnn.ke3g.ke4.kcp3.aspect1.bryman.list Updated Akira OFFLINE fcn being used Using CV model 3 with PV boost Using CV model 3 with CV wrapper thickness= 1.00 mg/cm^2, Energy threshold=0.500E-01 MeV Using CV model 3 with OPTIMISTIC INEFFYS Use Mnu2-dependent CPVetoGate width = (tlo,thi) ns defined as follows If Mnu2 < -.8000E+05 , then tlo= -2.000 , thi= 8.000 If Mnu2 > -.2000E+05 , then tlo= -4.000 , thi= 20.00 If -.8000E+05 < Mnu2 < -.2000E+05 , then tlo= -4.000 , thi is calculated by linear interp. btwn t= 8.000 at Mnu2= -.8000E+05 and t= 20.00 at Mnu2= -.2000E+05 Use beta=1 for chgd tracks for evaluating CPV ineffy Process ONLY 2g fits Using AvdS photon veto with threshold= 3.000 MeV and exponent= 1.800 Use energy-dependent ineffy catcher model 1 Use charge veto approximation for annihilating e+ Allow vetoes thru US beam pipe in US wall. Thickness(US veto)= 80.00 X0(US veto)= 17.12 RL(US veto) in cm= 4.67 Require cos(Glo,Ghi) < 0.940 to veto on lower energy gamma from e+ annihilation Supplement Zeller cuts with Konaka wrap-around cuts Supplement Zeller cuts with Konaka slow Kpi3 cuts Remove upper P(K) cuts from MZ and AK cuts Vacuum vessel radius= 115.00 Z(US endplate)=1025.00 Z(DS endplate)=1414.00 1090.00 < Z(recon K0L) < 1365.00 X_0(PR)= 50.0 N(rad.lens in PR)= 2.0 [snip] PositionAtCV: Limits of new CV in decay region: X= 199.90 Y= 199.90 . Z(D4)= 1615.00 used as approximation of CV in D4 magnet X halfwidth Y halfwidth Z at US end Z at DS end Volume name 199.89999 199.89999 1015.00000 1415.00000 New CV in decay region 110.25000 11.55000 1415.00000 1615.00000 CV in DS pipe to D4 magnet 65.00000 5.00000 935.00000 1015.00000 CV in US pipe Times(s): Spill= 2.400 Interspill= 2.300 Running time=0.4320E+08 Running time(hrs)=0.1200E+05 Using Br(K0L -> pi0,nu,nubar) = 0.3000E-10 Total N(K0L) after spoiler=0.1271E+16 Total neutron interactions=-1.000 Mode Generated Effy(wt) N/N(Kpnn) Nev(mode) dNeV(mode) Who kpnn 0.1200E+07 0.8040E-03 1.000 30.65 0.2406 MZ kpnn 0.1200E+07 0.3028E-02 1.000 115.5 0.4506 DJ kpnn 0.1200E+07 0.2891E-02 1.000 110.2 0.4491 AK basic kpnn 0.1200E+07 0.1899E-02 1.000 72.40 0.3644 AK loose kpnn 0.1200E+07 0.1676E-02 1.000 63.89 0.3424 AK lominal kpnn 0.1200E+07 0.1143E-02 1.000 43.56 0.2827 AK tight kpnn 0.1200E+07 0.7536E-03 1.000 28.73 0.2297 AK tighter kpnn 0.1200E+07 0.6518E-03 1.000 24.85 0.2138 AK tightest *ke4 0.5000E+07 0.3196E-10 0.6863E-01 2.104 1.224 MZ *ke4 0.5000E+07 0.3605E-10 0.2056E-01 2.373 1.229 DJ *ke4 0.5000E+07 0.7849E-10 0.4688E-01 5.166 2.084 AK basic *ke4 0.5000E+07 0.6837E-10 0.6216E-01 4.500 2.076 AK loose *ke4 0.5000E+07 0.6424E-10 0.6619E-01 4.229 2.070 AK lominal *ke4 0.5000E+07 0.5975E-10 0.9029E-01 3.933 2.067 AK tight *ke4 0.5000E+07 0.2904E-10 0.6655E-01 1.912 1.219 AK tighter *ke4 0.5000E+07 0.2876E-10 0.7619E-01 1.893 1.219 AK tightest *ke3g 0.2900E+07 0.1106E-10 1.619 49.63 14.98 MZ *ke3g 0.2900E+07 0.1299E-10 0.5047 58.27 14.07 DJ *ke3g 0.2900E+07 0.3484E-10 1.418 156.3 25.17 AK basic *ke3g 0.2900E+07 0.1669E-10 1.034 74.89 17.48 AK loose *ke3g 0.2900E+07 0.1637E-10 1.149 73.41 17.45 AK lominal *ke3g 0.2900E+07 0.1299E-10 1.337 58.25 15.75 AK tight *ke3g 0.2900E+07 0.1192E-10 1.861 53.47 15.45 AK tighter *ke3g 0.2900E+07 0.1133E-10 2.046 50.84 15.22 AK tightest *kcp3 0.5000E+07 0.6901E-12 3.602 110.4 109.2 MZ *kcp3 0.5000E+07 0.1436E-13 0.1990E-01 2.297 0.2550 DJ *kcp3 0.5000E+07 0.7099E-11 10.31 1136. 371.5 AK basic *kcp3 0.5000E+07 0.1660E-11 3.667 265.5 187.8 AK loose *kcp3 0.5000E+07 0.1660E-11 4.156 265.5 187.8 AK lominal *kcp3 0.5000E+07 0.6969E-12 2.559 111.5 109.2 AK tight *kcp3 0.5000E+07 0.6894E-12 3.840 110.3 109.2 AK tighter *kcp3 0.5000E+07 0.6878E-12 4.429 110.0 109.2 AK tightest Key N(Kpnn)/B d(S/B) Nev dNeV bkgd 0.1890 0.1286 162.1 110.3 MZ bkgd 1.834 0.4116 62.94 14.12 DJ bkgd 0.8495E-01 0.2439E-01 1297. 372.3 AK basic bkgd 0.2099 0.1148 344.9 188.7 AK loose bkgd 0.1862 0.1024 343.2 188.7 AK lominal bkgd 0.2508 0.1594 173.7 110.4 AK tight bkgd 0.1734 0.1155 165.7 110.3 AK tighter bkgd 0.1527 0.1035 162.8 110.3 AK tightest ke4 high weight events EVTwt=0.9152E-04 PrecK= 435.4 ZrecK= 1272.6 event= 35069 3.7MeV pi- Thit --- used fixed width gate (-4,8) ns Log file /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.kpnn.ke3g.ke4.kcp3.aspect1.bryman.190804.1955.log Log file name is /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.kpnn.ke3g.ke4.kcp3.aspect1.bryman.190804.1955.log Histogram file ../ntuples/anal.kpnn.ke3g.ke4.kcp3.aspect1.bryman.190804.1955.rzn Start time is Thu Aug 19 19:55:43 EDT 2004 Finish time is Thu Aug 19 21:48:45 EDT 2004 List of ntuples 5105 Aug 17 16:44 kpnn.ke3g.ke4.kcp3.aspect1.bryman.list Updated Akira OFFLINE fcn being used Using CV model 3 with PV boost Using CV model 3 with CV wrapper thickness= 1.00 mg/cm^2, Energy threshold=0.500E-01 MeV Using CV model 3 with OPTIMISTIC INEFFYS Charged particle veto gate in ns = (-4.00 , 8.00 ) Use beta=1 for chgd tracks for evaluating CPV ineffy Process ONLY 2g fits Using AvdS photon veto with threshold= 3.000 MeV and exponent= 1.800 Use energy-dependent ineffy catcher model 1 Use charge veto approximation for annihilating e+ Allow vetoes thru US beam pipe in US wall. Thickness(US veto)= 80.00 X0(US veto)= 17.12 RL(US veto) in cm= 4.67 Require cos(Glo,Ghi) < 0.940 to veto on lower energy gamma from e+ annihilation Supplement Zeller cuts with Konaka wrap-around cuts Supplement Zeller cuts with Konaka slow Kpi3 cuts Remove upper P(K) cuts from MZ and AK cuts Vacuum vessel radius= 115.00 Z(US endplate)=1025.00 Z(DS endplate)=1414.00 1090.00 < Z(recon K0L) < 1365.00 X_0(PR)= 50.0 N(rad.lens in PR)= 2.0 [snip] PositionAtCV: Limits of new CV in decay region: X= 199.90 Y= 199.90 . Z(D4)= 1615.00 used as approximation of CV in D4 magnet X halfwidth Y halfwidth Z at US end Z at DS end Volume name 199.89999 199.89999 1015.00000 1415.00000 New CV in decay region 110.25000 11.55000 1415.00000 1615.00000 CV in DS pipe to D4 magnet 65.00000 5.00000 935.00000 1015.00000 CV in US pipe Times(s): Spill= 2.400 Interspill= 2.300 Running time=0.4320E+08 Running time(hrs)=0.1200E+05 Using Br(K0L -> pi0,nu,nubar) = 0.3000E-10 Total N(K0L) after spoiler=0.1271E+16 Total neutron interactions=-1.000 Mode Generated Effy(wt) N/N(Kpnn) Nev(mode) dNeV(mode) Who kpnn 0.1200E+07 0.8040E-03 1.000 30.65 0.2406 MZ kpnn 0.1200E+07 0.3028E-02 1.000 115.5 0.4506 DJ kpnn 0.1200E+07 0.2891E-02 1.000 110.2 0.4491 AK basic kpnn 0.1200E+07 0.1899E-02 1.000 72.40 0.3644 AK loose kpnn 0.1200E+07 0.1676E-02 1.000 63.89 0.3424 AK lominal kpnn 0.1200E+07 0.1143E-02 1.000 43.56 0.2827 AK tight kpnn 0.1200E+07 0.7536E-03 1.000 28.73 0.2297 AK tighter kpnn 0.1200E+07 0.6518E-03 1.000 24.85 0.2138 AK tightest *ke4 0.5000E+07 0.2258E-09 0.4850 14.86 4.931 MZ *ke4 0.5000E+07 0.2832E-07 16.15 1864. 1307. DJ *ke4 0.5000E+07 0.2757E-07 16.47 1815. 1266. AK basic *ke4 0.5000E+07 0.1377E-07 12.52 906.2 886.2 AK loose *ke4 0.5000E+07 0.1374E-07 14.15 904.3 886.2 AK lominal *ke4 0.5000E+07 0.1367E-07 20.65 899.5 886.2 AK tight *ke4 0.5000E+07 0.1538E-09 0.3524 10.12 3.972 AK tighter *ke4 0.5000E+07 0.1348E-09 0.3572 8.875 3.798 AK tightest *ke3g 0.2900E+07 0.5726E-10 8.380 256.8 29.70 MZ *ke3g 0.2900E+07 0.8506E-10 3.305 381.6 38.37 DJ *ke3g 0.2900E+07 0.1849E-09 7.526 829.4 57.46 AK basic *ke3g 0.2900E+07 0.9007E-10 5.580 404.0 40.75 AK loose *ke3g 0.2900E+07 0.8407E-10 5.903 377.1 38.86 AK lominal *ke3g 0.2900E+07 0.6455E-10 6.646 289.5 34.37 AK tight *ke3g 0.2900E+07 0.4792E-10 7.482 214.9 28.65 AK tighter *ke3g 0.2900E+07 0.4293E-10 7.750 192.6 27.45 AK tightest *kcp3 0.5000E+07 0.7733E-07 0.4037E+06 0.1237E+08 0.5539E+07 MZ *kcp3 0.5000E+07 0.1599E-07 0.2216E+05 0.2558E+07 0.2557E+07 DJ *kcp3 0.5000E+07 0.2603E-06 0.3779E+06 0.4164E+08 0.1010E+08 AK basic *kcp3 0.5000E+07 0.1074E-06 0.2372E+06 0.1718E+08 0.6498E+07 AK loose *kcp3 0.5000E+07 0.1074E-06 0.2688E+06 0.1718E+08 0.6498E+07 AK lominal *kcp3 0.5000E+07 0.1073E-06 0.3942E+06 0.1717E+08 0.6498E+07 AK tight *kcp3 0.5000E+07 0.1073E-06 0.5978E+06 0.1717E+08 0.6498E+07 AK tighter *kcp3 0.5000E+07 0.6145E-07 0.3957E+06 0.9831E+07 0.4922E+07 AK tightest Key N(Kpnn)/B d(S/B) Nev dNeV bkgd 0.2477E-05 0.1109E-05 0.1237E+08 0.5539E+07 MZ bkgd 0.4509E-04 0.4504E-04 0.2560E+07 0.2557E+07 DJ bkgd 0.2646E-05 0.6419E-06 0.4164E+08 0.1010E+08 AK basic bkgd 0.4215E-05 0.1595E-05 0.1718E+08 0.6498E+07 AK loose bkgd 0.3719E-05 0.1407E-05 0.1718E+08 0.6498E+07 AK lominal bkgd 0.2537E-05 0.9598E-06 0.1717E+08 0.6498E+07 AK tight bkgd 0.1673E-05 0.6331E-06 0.1717E+08 0.6498E+07 AK tighter bkgd 0.2527E-05 0.1265E-05 0.9832E+07 0.4922E+07 AK tightest find that moving CV farther away ameliorates the delta<-4ns problem for ke3g at the expense of a longer tail at delta>0 from hist 27 (delta vs Mnu2) and hist 31 (delta) delta = Ttrk - TK - d/c Fri Aug 20 16:22:40 EDT 2004 same but with Mnu2-dependent gate: Log file /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.kpnn.ke3g.ke4.kcp3.aspect1.bryman.200804.1622.log ************************************ Mon Aug 23 09:17:15 EDT 2004 Log file name is /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.kpnn.ke3g.ke4.kcp3.aspect1.bryman.200804.1622.log Histogram file ../ntuples/anal.kpnn.ke3g.ke4.kcp3.aspect1.bryman.200804.1622.rzn Start time is Fri Aug 20 16:22:02 EDT 2004 Finish time is Fri Aug 20 18:17:38 EDT 2004 List of ntuples 5105 Aug 17 16:44 kpnn.ke3g.ke4.kcp3.aspect1.bryman.list Updated Akira OFFLINE fcn being used Using CV model 3 with PV boost Using CV model 3 with CV wrapper thickness= 1.00 mg/cm^2, Energy threshold=0.500E-01 MeV Using CV model 3 with OPTIMISTIC INEFFYS Use Mnu2-dependent CPVetoGate width = (tlo,thi) ns defined as follows If Mnu2 < -.8000E+05 , then tlo= -2.000 , thi= 8.000 If Mnu2 > -.2000E+05 , then tlo= -4.000 , thi= 20.00 If -.8000E+05 < Mnu2 < -.2000E+05 , then tlo= -4.000 , thi is calculated by linear interp. btwn t= 8.000 at Mnu2= -.8000E+05 and t= 20.00 at Mnu2= -.2000E+05 Use beta=1 for chgd tracks for evaluating CPV ineffy Process ONLY 2g fits Using AvdS photon veto with threshold= 3.000 MeV and exponent= 1.800 Use energy-dependent ineffy catcher model 1 Use charge veto approximation for annihilating e+ Allow vetoes thru US beam pipe in US wall. Thickness(US veto)= 80.00 X0(US veto)= 17.12 RL(US veto) in cm= 4.67 Require cos(Glo,Ghi) < 0.940 to veto on lower energy gamma from e+ annihilation Supplement Zeller cuts with Konaka wrap-around cuts Supplement Zeller cuts with Konaka slow Kpi3 cuts Remove upper P(K) cuts from MZ and AK cuts Vacuum vessel radius= 115.00 Z(US endplate)=1025.00 Z(DS endplate)=1414.00 1090.00 < Z(recon K0L) < 1365.00 X_0(PR)= 50.0 N(rad.lens in PR)= 2.0 [snip] PositionAtCV: Limits of new CV in decay region: X= 199.90 Y= 199.90 . Z(D4)= 1615.00 used as approximation of CV in D4 magnet X halfwidth Y halfwidth Z at US end Z at DS end Volume name 199.89999 199.89999 1015.00000 1415.00000 New CV in decay region 110.25000 11.55000 1415.00000 1615.00000 CV in DS pipe to D4 magnet 65.00000 5.00000 935.00000 1015.00000 CV in US pipe Times(s): Spill= 2.400 Interspill= 2.300 Running time=0.4320E+08 Running time(hrs)=0.1200E+05 Using Br(K0L -> pi0,nu,nubar) = 0.3000E-10 Total N(K0L) after spoiler=0.1271E+16 Total neutron interactions=-1.000 Mode Generated Effy(wt) N/N(Kpnn) Nev(mode) dNeV(mode) Who kpnn 0.1200E+07 0.8040E-03 1.000 30.65 0.2406 MZ kpnn 0.1200E+07 0.3028E-02 1.000 115.5 0.4506 DJ kpnn 0.1200E+07 0.2891E-02 1.000 110.2 0.4491 AK basic kpnn 0.1200E+07 0.1899E-02 1.000 72.40 0.3644 AK loose kpnn 0.1200E+07 0.1676E-02 1.000 63.89 0.3424 AK lominal kpnn 0.1200E+07 0.1143E-02 1.000 43.56 0.2827 AK tight kpnn 0.1200E+07 0.7536E-03 1.000 28.73 0.2297 AK tighter kpnn 0.1200E+07 0.6518E-03 1.000 24.85 0.2138 AK tightest *ke4 0.5000E+07 0.3196E-10 0.6863E-01 2.104 1.224 MZ *ke4 0.5000E+07 0.3605E-10 0.2056E-01 2.373 1.229 DJ *ke4 0.5000E+07 0.7849E-10 0.4688E-01 5.166 2.084 AK basic *ke4 0.5000E+07 0.6837E-10 0.6216E-01 4.500 2.076 AK loose *ke4 0.5000E+07 0.6424E-10 0.6619E-01 4.229 2.070 AK lominal *ke4 0.5000E+07 0.5975E-10 0.9029E-01 3.933 2.067 AK tight *ke4 0.5000E+07 0.2904E-10 0.6655E-01 1.912 1.219 AK tighter *ke4 0.5000E+07 0.2876E-10 0.7619E-01 1.893 1.219 AK tightest *ke3g 0.2900E+07 0.1106E-10 1.619 49.63 14.98 MZ *ke3g 0.2900E+07 0.1299E-10 0.5047 58.27 14.07 DJ *ke3g 0.2900E+07 0.3484E-10 1.418 156.3 25.17 AK basic *ke3g 0.2900E+07 0.1669E-10 1.034 74.89 17.48 AK loose *ke3g 0.2900E+07 0.1637E-10 1.149 73.41 17.45 AK lominal *ke3g 0.2900E+07 0.1299E-10 1.337 58.25 15.75 AK tight *ke3g 0.2900E+07 0.1192E-10 1.861 53.47 15.45 AK tighter *ke3g 0.2900E+07 0.1133E-10 2.046 50.84 15.22 AK tightest *kcp3 0.5000E+07 0.6901E-12 3.602 110.4 109.2 MZ *kcp3 0.5000E+07 0.1436E-13 0.1990E-01 2.297 0.2550 DJ *kcp3 0.5000E+07 0.7099E-11 10.31 1136. 371.5 AK basic *kcp3 0.5000E+07 0.1660E-11 3.667 265.5 187.8 AK loose *kcp3 0.5000E+07 0.1660E-11 4.156 265.5 187.8 AK lominal *kcp3 0.5000E+07 0.6969E-12 2.559 111.5 109.2 AK tight *kcp3 0.5000E+07 0.6894E-12 3.840 110.3 109.2 AK tighter *kcp3 0.5000E+07 0.6878E-12 4.429 110.0 109.2 AK tightest Key N(Kpnn)/B d(S/B) Nev dNeV bkgd 0.1890 0.1286 162.1 110.3 MZ bkgd 1.834 0.4116 62.94 14.12 DJ bkgd 0.8495E-01 0.2439E-01 1297. 372.3 AK basic bkgd 0.2099 0.1148 344.9 188.7 AK loose bkgd 0.1862 0.1024 343.2 188.7 AK lominal bkgd 0.2508 0.1594 173.7 110.4 AK tight bkgd 0.1734 0.1155 165.7 110.3 AK tighter bkgd 0.1527 0.1035 162.8 110.3 AK tightest For cuts other than DJ, rate dominated by kcp3, ke3g DJ cuts: ke3g rate dominates ke4 high weight events DJ cuts EVTwt=0.9152E-04 PrecK= 435.4 ZrecK= 1272.6 event= 35069 Ptrue 436 1267 KE=3.7MeV pi-, delta=25.8 ke3g EVTwt=0.1695E-05 PrecK= 629.2 ZrecK= 1213.6 event= 4303 Ptrue 616 1194 6.6MeV pi-, delta=22.6ns EVTwt=0.1994E-05 PrecK= 623.0 ZrecK= 1178.5 event= 2893 618 1124 3.4MeV pi- DIF, 5.5MeV mu-, delta=33ns EVTwt=0.2310E-05 PrecK= 686.6 ZrecK= 1190.1 event= 179 667 1163 5.5MeV pi- DIF, 4.7MeV mu-, delta=22.6ns EVTwt=0.1803E-05 CPwt=0.6419 VEwt= 1.000 DKwt=0.2810E-05 PrecK= 726.2 ZrecK= 1145.4 event= 142 4.6MeV pi- DIF, 10.5MeV mu-, delta=21.3ns EVTwt=0.1715E-05 CPwt=0.6405 VEwt= 1.000 DKwt=0.2677E-05 PrecK= 711.4 ZrecK= 1203.4 event= 353 3.6MeV pi- DIF 5.0MeV mu- delta=22.3ns classify further similar events (x=previous events): slow pi- **xx slow mu- ********xxxx EVTwt=0.1188E-05 PrecK= 1274.0 ZrecK= 1290.9 event= 1443 1260 1162 Mnu2= -.1883E+06 CVGate(low) -2.000 CVgate(high)= 8.000 420MeV pi-, delta=-2.2ns ke3g summary: 4 slow pi- 12 slow mu- 1 misrecon pi- summary of rates for AK tightest: ke4 EVTwt=0.9152E-04 CPwt=0.6619 VEwt=0.1146E-02 DKwt=0.1206 PrecK= 435.4 ZrecK= 1272.6 event= 35069 same as DJ ke3g: slow pi- 2 slow mu- 11 mis-recon 0 kcp3: EVTwt=0.3414E-05 CPwt=0.6637 VEwt=0.4278E-04 DKwt=0.1202 PrecK= 445.6 ZrecK= 1122.1 event= 18459 Mnu2= 0.1043E+05 CVGate(low) -4.000 CVgate(high)= 20.00 15MeV pi+ DIF, 6.5MeV mu+, delta=22ns 9.5MeV pi-, delta=17.1ns add histogram of delta vs Emiss, re-run: Log file /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.kpnn.ke3g.ke4.kcp3.aspect1.bryman.230804.0953.log infinite gate, 5 files/mode to check thickness of DS wall: Log file /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.five.kpnn.ke3g.ke4.kcp3.aspect1.bryman.230804.1423.log Log file name is /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.five.kpnn.ke3g.ke4.kcp3.aspect1.bryman.230804.1423.log Histogram file ../ntuples/anal.five.kpnn.ke3g.ke4.kcp3.aspect1.bryman.230804.1423.rzn Start time is Mon Aug 23 14:23:34 EDT 2004 Finish time is Mon Aug 23 14:39:12 EDT 2004 List of ntuples 725 Aug 23 14:20 five.kpnn.ke3g.ke4.kcp3.aspect1.bryman.list Updated Akira OFFLINE fcn being used Using CV model 3 with PV boost Using CV model 3 with CV wrapper thickness= 1.00 mg/cm^2, Energy threshold=0.500E-01 MeV Using CV model 3 with OPTIMISTIC INEFFYS Charged particle veto gate in ns = (-.400E+21 ,0.800E+21) Use beta=1 for chgd tracks for evaluating CPV ineffy Process ONLY 2g fits Using AvdS photon veto with threshold= 3.000 MeV and exponent= 1.800 Use energy-dependent ineffy catcher model 1 Use charge veto approximation for annihilating e+ Allow vetoes thru US beam pipe in US wall. Thickness(US veto)= 80.00 X0(US veto)= 17.12 RL(US veto) in cm= 4.67 Require cos(Glo,Ghi) < 0.940 to veto on lower energy gamma from e+ annihilation Supplement Zeller cuts with Konaka wrap-around cuts Supplement Zeller cuts with Konaka slow Kpi3 cuts Remove upper P(K) cuts from MZ and AK cuts Vacuum vessel radius= 115.00 Z(US endplate)=1025.00 Z(DS endplate)=1414.00 1090.00 < Z(recon K0L) < 1365.00 X_0(PR)= 50.0 N(rad.lens in PR)= 2.0 [snip] PositionAtCV: Limits of new CV in decay region: X= 199.90 Y= 199.90 . Z(D4)= 1615.00 used as approximation of CV in D4 magnet X halfwidth Y halfwidth Z at US end Z at DS end Volume name 199.89999 199.89999 1015.00000 1415.00000 New CV in decay region 110.25000 11.55000 1415.00000 1615.00000 CV in DS pipe to D4 magnet 65.00000 5.00000 935.00000 1015.00000 CV in US pipe Times(s): Spill= 2.400 Interspill= 2.300 Running time=0.4320E+08 Running time(hrs)=0.1200E+05 Using Br(K0L -> pi0,nu,nubar) = 0.3000E-10 Total N(K0L) after spoiler=0.1271E+16 Total neutron interactions=-1.000 Mode Generated Effy(wt) N/N(Kpnn) Nev(mode) dNeV(mode) Who kpnn 0.5000E+06 0.7960E-03 1.000 30.35 0.3706 MZ kpnn 0.5000E+06 0.3026E-02 1.000 115.4 0.6984 DJ kpnn 0.5000E+06 0.2890E-02 1.000 110.2 0.6958 AK basic kpnn 0.5000E+06 0.1904E-02 1.000 72.57 0.5657 AK loose kpnn 0.5000E+06 0.1683E-02 1.000 64.16 0.5322 AK lominal kpnn 0.5000E+06 0.1144E-02 1.000 43.62 0.4386 AK tight kpnn 0.5000E+06 0.7479E-03 1.000 28.51 0.3546 AK tighter kpnn 0.5000E+06 0.6482E-03 1.000 24.71 0.3305 AK tightest *ke3g 0.5000E+06 0.4135E-13 0.6113E-02 0.1855 0.1547E-01 MZ *ke3g 0.5000E+06 0.1434E-12 0.5577E-02 0.6434 0.3330E-01 DJ *ke3g 0.5000E+06 0.2252E-12 0.9167E-02 1.010 0.4374E-01 AK basic *ke3g 0.5000E+06 0.9660E-13 0.5971E-02 0.4333 0.2600E-01 AK loose *ke3g 0.5000E+06 0.8584E-13 0.6001E-02 0.3850 0.2458E-01 AK lominal *ke3g 0.5000E+06 0.6648E-13 0.6836E-02 0.2982 0.2178E-01 AK tight *ke3g 0.5000E+06 0.4169E-13 0.6559E-02 0.1870 0.1695E-01 AK tighter *ke3g 0.5000E+06 0.3698E-13 0.6713E-02 0.1659 0.1618E-01 AK tightest *ke4 0.5000E+06 0.3147E-10 0.6826E-01 2.071 1.182 MZ *ke4 0.5000E+06 0.2092E-10 0.1194E-01 1.377 0.9338 DJ *ke4 0.5000E+06 0.5507E-10 0.3290E-01 3.625 1.449 AK basic *ke4 0.5000E+06 0.3554E-10 0.3223E-01 2.339 1.197 AK loose *ke4 0.5000E+06 0.3548E-10 0.3639E-01 2.335 1.197 AK lominal *ke4 0.5000E+06 0.2227E-10 0.3360E-01 1.466 0.9578 AK tight *ke4 0.5000E+06 0.9770E-11 0.2255E-01 0.6431 0.6196 AK tighter *ke4 0.5000E+06 0.9754E-11 0.2598E-01 0.6420 0.6196 AK tightest *kcp3 0.5000E+06 0.4624E-14 0.2438E-01 0.7398 0.1440 MZ *kcp3 0.5000E+06 0.1340E-13 0.1859E-01 2.145 0.1871 DJ *kcp3 0.5000E+06 0.1752E-12 0.2544 28.03 0.8934 AK basic *kcp3 0.5000E+06 0.1695E-13 0.3736E-01 2.712 0.2649 AK loose *kcp3 0.5000E+06 0.1678E-13 0.4185E-01 2.685 0.2638 AK lominal *kcp3 0.5000E+06 0.1034E-13 0.3791E-01 1.654 0.2078 AK tight *kcp3 0.5000E+06 0.3716E-14 0.2085E-01 0.5945 0.1226 AK tighter *kcp3 0.5000E+06 0.2818E-14 0.1824E-01 0.4508 0.1113 AK tightest Key N(Kpnn)/B d(S/B) Nev dNeV bkgd 10.13 4.028 2.997 1.191 MZ bkgd 27.70 6.339 4.165 0.9529 DJ bkgd 3.373 0.1771 32.67 1.703 AK basic bkgd 13.23 2.960 5.484 1.226 AK loose bkgd 11.87 2.694 5.405 1.226 AK lominal bkgd 12.76 3.663 3.418 0.9803 AK tight bkgd 20.01 8.880 1.425 0.6318 AK tighter bkgd 19.63 9.824 1.259 0.6297 AK tightest [snip] infinite gate, DS wall thickness = 10 mg/cm^2 Log file /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.five.kpnn.ke3g.ke4.kcp3.aspect1.bryman.230804.1443.log Log file name is /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.five.kpnn.ke3g.ke4.kcp3.aspect1.bryman.230804.1443.log Histogram file ../ntuples/anal.five.kpnn.ke3g.ke4.kcp3.aspect1.bryman.230804.1443.rzn Start time is Mon Aug 23 14:43:31 EDT 2004 Finish time is Mon Aug 23 14:59:06 EDT 2004 List of ntuples 725 Aug 23 14:20 five.kpnn.ke3g.ke4.kcp3.aspect1.bryman.list Updated Akira OFFLINE fcn being used Using CV model 3 with PV boost Using CV model 3 with CV wrapper thickness= 1.00 and DS window thickness= 10.0 mg/cm^2, Energy threshold=0.500E-01 MeV Using CV model 3 with OPTIMISTIC INEFFYS Charged particle veto gate in ns = (-.400E+21 ,0.800E+21) Use beta=1 for chgd tracks for evaluating CPV ineffy Process ONLY 2g fits Using AvdS photon veto with threshold= 3.000 MeV and exponent= 1.800 Use energy-dependent ineffy catcher model 1 Use charge veto approximation for annihilating e+ Allow vetoes thru US beam pipe in US wall. Thickness(US veto)= 80.00 X0(US veto)= 17.12 RL(US veto) in cm= 4.67 Require cos(Glo,Ghi) < 0.940 to veto on lower energy gamma from e+ annihilation Supplement Zeller cuts with Konaka wrap-around cuts Supplement Zeller cuts with Konaka slow Kpi3 cuts Remove upper P(K) cuts from MZ and AK cuts Vacuum vessel radius= 115.00 Z(US endplate)=1025.00 Z(DS endplate)=1414.00 1090.00 < Z(recon K0L) < 1365.00 X_0(PR)= 50.0 N(rad.lens in PR)= 2.0 [snip] PositionAtCV: Limits of new CV in decay region: X= 199.90 Y= 199.90 . Z(D4)= 1615.00 used as approximation of CV in D4 magnet X halfwidth Y halfwidth Z at US end Z at DS end Volume name 199.89999 199.89999 1015.00000 1415.00000 New CV in decay region 110.25000 11.55000 1415.00000 1615.00000 CV in DS pipe to D4 magnet 65.00000 5.00000 935.00000 1015.00000 CV in US pipe Times(s): Spill= 2.400 Interspill= 2.300 Running time=0.4320E+08 Running time(hrs)=0.1200E+05 Using Br(K0L -> pi0,nu,nubar) = 0.3000E-10 Total N(K0L) after spoiler=0.1271E+16 Total neutron interactions=-1.000 Mode Generated Effy(wt) N/N(Kpnn) Nev(mode) dNeV(mode) Who kpnn 0.5000E+06 0.7960E-03 1.000 30.35 0.3706 MZ kpnn 0.5000E+06 0.3026E-02 1.000 115.4 0.6984 DJ kpnn 0.5000E+06 0.2890E-02 1.000 110.2 0.6958 AK basic kpnn 0.5000E+06 0.1904E-02 1.000 72.57 0.5657 AK loose kpnn 0.5000E+06 0.1683E-02 1.000 64.16 0.5322 AK lominal kpnn 0.5000E+06 0.1144E-02 1.000 43.62 0.4386 AK tight kpnn 0.5000E+06 0.7479E-03 1.000 28.51 0.3546 AK tighter kpnn 0.5000E+06 0.6482E-03 1.000 24.71 0.3305 AK tightest *ke3g 0.5000E+06 0.4329E-13 0.6400E-02 0.1942 0.1638E-01 MZ *ke3g 0.5000E+06 0.1539E-12 0.5984E-02 0.6904 0.3680E-01 DJ *ke3g 0.5000E+06 0.2382E-12 0.9699E-02 1.069 0.4666E-01 AK basic *ke3g 0.5000E+06 0.1024E-12 0.6331E-02 0.4595 0.2843E-01 AK loose *ke3g 0.5000E+06 0.9128E-13 0.6382E-02 0.4095 0.2710E-01 AK lominal *ke3g 0.5000E+06 0.7065E-13 0.7264E-02 0.3169 0.2419E-01 AK tight *ke3g 0.5000E+06 0.4398E-13 0.6919E-02 0.1973 0.1909E-01 AK tighter *ke3g 0.5000E+06 0.3860E-13 0.7007E-02 0.1731 0.1790E-01 AK tightest *ke4 0.5000E+06 0.3154E-10 0.6841E-01 2.076 1.182 MZ *ke4 0.5000E+06 0.2103E-10 0.1200E-01 1.384 0.9338 DJ *ke4 0.5000E+06 0.5656E-10 0.3379E-01 3.723 1.453 AK basic *ke4 0.5000E+06 0.3564E-10 0.3232E-01 2.346 1.197 AK loose *ke4 0.5000E+06 0.3556E-10 0.3648E-01 2.341 1.197 AK lominal *ke4 0.5000E+06 0.2234E-10 0.3371E-01 1.470 0.9578 AK tight *ke4 0.5000E+06 0.9804E-11 0.2263E-01 0.6453 0.6196 AK tighter *ke4 0.5000E+06 0.9787E-11 0.2607E-01 0.6443 0.6196 AK tightest *kcp3 0.5000E+06 0.9913E-14 0.5226E-01 1.586 0.3552 MZ *kcp3 0.5000E+06 0.3819E-13 0.5296E-01 6.109 0.6240 DJ *kcp3 0.5000E+06 0.3577E-12 0.5194 57.23 2.237 AK basic *kcp3 0.5000E+06 0.3956E-13 0.8721E-01 6.329 0.8117 AK loose *kcp3 0.5000E+06 0.3927E-13 0.9793E-01 6.283 0.8105 AK lominal *kcp3 0.5000E+06 0.2326E-13 0.8529E-01 3.721 0.5638 AK tight *kcp3 0.5000E+06 0.7150E-14 0.4012E-01 1.144 0.2516 AK tighter *kcp3 0.5000E+06 0.4789E-14 0.3100E-01 0.7661 0.2125 AK tightest Key N(Kpnn)/B d(S/B) Nev dNeV bkgd 7.869 2.522 3.856 1.235 MZ bkgd 14.10 1.937 8.184 1.124 DJ bkgd 1.777 0.7725E-01 62.02 2.668 AK basic bkgd 7.945 1.260 9.134 1.446 AK loose bkgd 7.103 1.138 9.034 1.446 AK lominal bkgd 7.920 1.601 5.508 1.112 AK tight bkgd 14.35 4.837 1.986 0.6690 AK tighter bkgd 15.60 6.460 1.584 0.6552 AK tightest [snip] 20 mg/cm^2 thick, infinite gates Log file /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.five.kpnn.ke3g.ke4.kcp3.aspect1.bryman.230804.1501.log Log file name is /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.five.kpnn.ke3g.ke4.kcp3.aspect1.bryman.230804.1501.log Histogram file ../ntuples/anal.five.kpnn.ke3g.ke4.kcp3.aspect1.bryman.230804.1501.rzn Start time is Mon Aug 23 15:01:07 EDT 2004 Finish time is Mon Aug 23 15:16:46 EDT 2004 List of ntuples 725 Aug 23 14:20 five.kpnn.ke3g.ke4.kcp3.aspect1.bryman.list Updated Akira OFFLINE fcn being used Using CV model 3 with PV boost Using CV model 3 with CV wrapper thickness= 1.00 and DS window thickness= 20.0 mg/cm^2, Energy threshold=0.500E-01 MeV Using CV model 3 with OPTIMISTIC INEFFYS Charged particle veto gate in ns = (-.400E+21 ,0.800E+21) Use beta=1 for chgd tracks for evaluating CPV ineffy Process ONLY 2g fits Using AvdS photon veto with threshold= 3.000 MeV and exponent= 1.800 Use energy-dependent ineffy catcher model 1 Use charge veto approximation for annihilating e+ Allow vetoes thru US beam pipe in US wall. Thickness(US veto)= 80.00 X0(US veto)= 17.12 RL(US veto) in cm= 4.67 Require cos(Glo,Ghi) < 0.940 to veto on lower energy gamma from e+ annihilation Supplement Zeller cuts with Konaka wrap-around cuts Supplement Zeller cuts with Konaka slow Kpi3 cuts Remove upper P(K) cuts from MZ and AK cuts Vacuum vessel radius= 115.00 Z(US endplate)=1025.00 Z(DS endplate)=1414.00 1090.00 < Z(recon K0L) < 1365.00 X_0(PR)= 50.0 N(rad.lens in PR)= 2.0 [snip] PositionAtCV: Limits of new CV in decay region: X= 199.90 Y= 199.90 . Z(D4)= 1615.00 used as approximation of CV in D4 magnet X halfwidth Y halfwidth Z at US end Z at DS end Volume name 199.89999 199.89999 1015.00000 1415.00000 New CV in decay region 110.25000 11.55000 1415.00000 1615.00000 CV in DS pipe to D4 magnet 65.00000 5.00000 935.00000 1015.00000 CV in US pipe Times(s): Spill= 2.400 Interspill= 2.300 Running time=0.4320E+08 Running time(hrs)=0.1200E+05 Using Br(K0L -> pi0,nu,nubar) = 0.3000E-10 Total N(K0L) after spoiler=0.1271E+16 Total neutron interactions=-1.000 Mode Generated Effy(wt) N/N(Kpnn) Nev(mode) dNeV(mode) Who kpnn 0.5000E+06 0.7960E-03 1.000 30.35 0.3706 MZ kpnn 0.5000E+06 0.3026E-02 1.000 115.4 0.6984 DJ kpnn 0.5000E+06 0.2890E-02 1.000 110.2 0.6958 AK basic kpnn 0.5000E+06 0.1904E-02 1.000 72.57 0.5657 AK loose kpnn 0.5000E+06 0.1683E-02 1.000 64.16 0.5322 AK lominal kpnn 0.5000E+06 0.1144E-02 1.000 43.62 0.4386 AK tight kpnn 0.5000E+06 0.7479E-03 1.000 28.51 0.3546 AK tighter kpnn 0.5000E+06 0.6482E-03 1.000 24.71 0.3305 AK tightest *ke3g 0.5000E+06 0.4524E-13 0.6687E-02 0.2029 0.1773E-01 MZ *ke3g 0.5000E+06 0.1644E-12 0.6391E-02 0.7373 0.4172E-01 DJ *ke3g 0.5000E+06 0.2513E-12 0.1023E-01 1.127 0.5092E-01 AK basic *ke3g 0.5000E+06 0.1083E-12 0.6692E-02 0.4857 0.3190E-01 AK loose *ke3g 0.5000E+06 0.9672E-13 0.6762E-02 0.4339 0.3065E-01 AK lominal *ke3g 0.5000E+06 0.7481E-13 0.7693E-02 0.3356 0.2757E-01 AK tight *ke3g 0.5000E+06 0.4626E-13 0.7278E-02 0.2075 0.2205E-01 AK tighter *ke3g 0.5000E+06 0.4022E-13 0.7301E-02 0.1804 0.2032E-01 AK tightest *ke4 0.5000E+06 0.3161E-10 0.6857E-01 2.081 1.182 MZ *ke4 0.5000E+06 0.2113E-10 0.1206E-01 1.391 0.9338 DJ *ke4 0.5000E+06 0.5806E-10 0.3469E-01 3.822 1.462 AK basic *ke4 0.5000E+06 0.3574E-10 0.3241E-01 2.352 1.197 AK loose *ke4 0.5000E+06 0.3565E-10 0.3657E-01 2.346 1.197 AK lominal *ke4 0.5000E+06 0.2240E-10 0.3381E-01 1.475 0.9578 AK tight *ke4 0.5000E+06 0.9838E-11 0.2271E-01 0.6476 0.6196 AK tighter *ke4 0.5000E+06 0.9821E-11 0.2616E-01 0.6465 0.6196 AK tightest *kcp3 0.5000E+06 0.1711E-13 0.9022E-01 2.738 0.7110 MZ *kcp3 0.5000E+06 0.7455E-13 0.1034 11.93 1.437 DJ *kcp3 0.5000E+06 0.5969E-12 0.8667 95.49 4.587 AK basic *kcp3 0.5000E+06 0.7191E-13 0.1585 11.50 1.830 AK loose *kcp3 0.5000E+06 0.7150E-13 0.1783 11.44 1.829 AK lominal *kcp3 0.5000E+06 0.4137E-13 0.1517 6.619 1.222 AK tight *kcp3 0.5000E+06 0.1203E-13 0.6748E-01 1.924 0.5258 AK tighter *kcp3 0.5000E+06 0.7947E-14 0.5146E-01 1.271 0.4693 AK tightest Key N(Kpnn)/B d(S/B) Nev dNeV bkgd 6.043 1.662 5.022 1.380 MZ bkgd 8.208 1.002 14.05 1.714 DJ bkgd 1.097 0.5304E-01 100.4 4.815 AK basic bkgd 5.060 0.7725 14.34 2.187 AK loose bkgd 4.512 0.6946 14.22 2.186 AK lominal bkgd 5.175 0.9550 8.429 1.553 AK tight bkgd 10.26 3.004 2.779 0.8129 AK tighter bkgd 11.78 4.366 2.098 0.7775 AK tightest [snip] 30 mg/cm^2, infinite cpvetogate Log file /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.five.kpnn.ke3g.ke4.kcp3.aspect1.bryman.230804.1523.log Log file name is /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.five.kpnn.ke3g.ke4.kcp3.aspect1.bryman.230804.1523.log Histogram file ../ntuples/anal.five.kpnn.ke3g.ke4.kcp3.aspect1.bryman.230804.1523.rzn Start time is Mon Aug 23 15:23:39 EDT 2004 Finish time is Mon Aug 23 15:39:31 EDT 2004 List of ntuples 725 Aug 23 14:20 five.kpnn.ke3g.ke4.kcp3.aspect1.bryman.list Updated Akira OFFLINE fcn being used Using CV model 3 with PV boost Using CV model 3 with CV wrapper thickness= 1.00 and DS window thickness= 30.0 mg/cm^2, Energy threshold=0.500E-01 MeV Using CV model 3 with OPTIMISTIC INEFFYS Charged particle veto gate in ns = (-.400E+21 ,0.800E+21) Use beta=1 for chgd tracks for evaluating CPV ineffy Process ONLY 2g fits Using AvdS photon veto with threshold= 3.000 MeV and exponent= 1.800 Use energy-dependent ineffy catcher model 1 Use charge veto approximation for annihilating e+ Allow vetoes thru US beam pipe in US wall. Thickness(US veto)= 80.00 X0(US veto)= 17.12 RL(US veto) in cm= 4.67 Require cos(Glo,Ghi) < 0.940 to veto on lower energy gamma from e+ annihilation Supplement Zeller cuts with Konaka wrap-around cuts Supplement Zeller cuts with Konaka slow Kpi3 cuts Remove upper P(K) cuts from MZ and AK cuts Vacuum vessel radius= 115.00 Z(US endplate)=1025.00 Z(DS endplate)=1414.00 1090.00 < Z(recon K0L) < 1365.00 X_0(PR)= 50.0 N(rad.lens in PR)= 2.0 [snip] PositionAtCV: Limits of new CV in decay region: X= 199.90 Y= 199.90 . Z(D4)= 1615.00 used as approximation of CV in D4 magnet X halfwidth Y halfwidth Z at US end Z at DS end Volume name 199.89999 199.89999 1015.00000 1415.00000 New CV in decay region 110.25000 11.55000 1415.00000 1615.00000 CV in DS pipe to D4 magnet 65.00000 5.00000 935.00000 1015.00000 CV in US pipe Times(s): Spill= 2.400 Interspill= 2.300 Running time=0.4320E+08 Running time(hrs)=0.1200E+05 Using Br(K0L -> pi0,nu,nubar) = 0.3000E-10 Total N(K0L) after spoiler=0.1271E+16 Total neutron interactions=-1.000 Mode Generated Effy(wt) N/N(Kpnn) Nev(mode) dNeV(mode) Who kpnn 0.5000E+06 0.7960E-03 1.000 30.35 0.3706 MZ kpnn 0.5000E+06 0.3026E-02 1.000 115.4 0.6984 DJ kpnn 0.5000E+06 0.2890E-02 1.000 110.2 0.6958 AK basic kpnn 0.5000E+06 0.1904E-02 1.000 72.57 0.5657 AK loose kpnn 0.5000E+06 0.1683E-02 1.000 64.16 0.5322 AK lominal kpnn 0.5000E+06 0.1144E-02 1.000 43.62 0.4386 AK tight kpnn 0.5000E+06 0.7479E-03 1.000 28.51 0.3546 AK tighter kpnn 0.5000E+06 0.6482E-03 1.000 24.71 0.3305 AK tightest *ke3g 0.5000E+06 0.4718E-13 0.6974E-02 0.2116 0.1942E-01 MZ *ke3g 0.5000E+06 0.1748E-12 0.6799E-02 0.7843 0.4761E-01 DJ *ke3g 0.5000E+06 0.2644E-12 0.1076E-01 1.186 0.5622E-01 AK basic *ke3g 0.5000E+06 0.1141E-12 0.7052E-02 0.5118 0.3609E-01 AK loose *ke3g 0.5000E+06 0.1022E-12 0.7143E-02 0.4583 0.3491E-01 AK lominal *ke3g 0.5000E+06 0.7898E-13 0.8121E-02 0.3543 0.3159E-01 AK tight *ke3g 0.5000E+06 0.4854E-13 0.7637E-02 0.2178 0.2554E-01 AK tighter *ke3g 0.5000E+06 0.4183E-13 0.7594E-02 0.1877 0.2321E-01 AK tightest *ke4 0.5000E+06 0.3168E-10 0.6873E-01 2.086 1.182 MZ *ke4 0.5000E+06 0.2124E-10 0.1212E-01 1.398 0.9338 DJ *ke4 0.5000E+06 0.5956E-10 0.3558E-01 3.921 1.476 AK basic *ke4 0.5000E+06 0.3584E-10 0.3250E-01 2.359 1.197 AK loose *ke4 0.5000E+06 0.3573E-10 0.3666E-01 2.352 1.197 AK lominal *ke4 0.5000E+06 0.2247E-10 0.3391E-01 1.479 0.9578 AK tight *ke4 0.5000E+06 0.9872E-11 0.2279E-01 0.6498 0.6196 AK tighter *ke4 0.5000E+06 0.9855E-11 0.2625E-01 0.6487 0.6196 AK tightest *kcp3 0.5000E+06 0.2622E-13 0.1383 4.195 1.200 MZ *kcp3 0.5000E+06 0.1225E-12 0.1699 19.59 2.602 DJ *kcp3 0.5000E+06 0.8927E-12 1.296 142.8 7.874 AK basic *kcp3 0.5000E+06 0.1140E-12 0.2513 18.24 3.286 AK loose *kcp3 0.5000E+06 0.1135E-12 0.2829 18.15 3.285 AK lominal *kcp3 0.5000E+06 0.6468E-13 0.2372 10.35 2.160 AK tight *kcp3 0.5000E+06 0.1834E-13 0.1029 2.935 0.9276 AK tighter *kcp3 0.5000E+06 0.1229E-13 0.7960E-01 1.967 0.8563 AK tightest Key N(Kpnn)/B d(S/B) Nev dNeV bkgd 4.674 1.214 6.493 1.684 MZ bkgd 5.297 0.6734 21.78 2.765 DJ bkgd 0.7448 0.4061E-01 147.9 8.012 AK basic bkgd 3.438 0.5702 21.11 3.497 AK loose bkgd 3.061 0.5110 20.96 3.496 AK lominal bkgd 3.581 0.6955 12.18 2.363 AK tight bkgd 7.498 2.202 3.802 1.116 AK tighter bkgd 8.815 3.326 2.803 1.057 AK tightest Conversion probability average weight Cut : Mode kpnn ke3g ke4 kcp3 MZ 0.607 0.594 0.605 0.622 DJ 0.622 0.619 0.619 0.631 AK basic 0.614 0.616 0.613 0.619 AK loose 0.614 0.610 0.611 0.615 AK lominal 0.614 0.612 0.610 0.614 AK tight 0.614 0.611 0.610 0.615 AK tighter 0.613 0.609 0.610 0.603 AK tightest 0.614 0.610 0.610 0.616 Veto inefficiency average weight Cut : Mode kpnn ke3g ke4 kcp3 MZ 1.00 0.442E-04 0.325E-07 0.281E-08 DJ 1.00 0.353E-04 0.812E-08 0.629E-09 AK basic 1.00 0.403E-04 0.166E-07 0.266E-08 AK loose 1.00 0.420E-04 0.177E-07 0.254E-08 AK lominal 1.00 0.413E-04 0.188E-07 0.257E-08 AK tight 1.00 0.425E-04 0.158E-07 0.217E-08 AK tighter 1.00 0.403E-04 0.101E-07 0.159E-08 AK tightest 1.00 0.396E-04 0.112E-07 0.120E-08 Decay*Prod. weight average weight Cut : Mode kpnn ke3g ke4 kcp3 MZ 0.901E-01 0.257E-05 0.903E-01 0.890E-01 DJ 0.817E-01 0.260E-05 0.826E-01 0.687E-01 AK basic 0.862E-01 0.262E-05 0.860E-01 0.839E-01 AK loose 0.866E-01 0.262E-05 0.867E-01 0.793E-01 AK lominal 0.867E-01 0.269E-05 0.867E-01 0.794E-01 AK tight 0.867E-01 0.274E-05 0.868E-01 0.790E-01 AK tighter 0.869E-01 0.267E-05 0.869E-01 0.778E-01 AK tightest 0.870E-01 0.270E-05 0.868E-01 0.777E-01 KL/n Prod. weight average weight Cut : Mode kpnn ke3g ke4 kcp3 MZ 0.901E-01 0.910E-01 0.903E-01 0.890E-01 DJ 0.817E-01 0.820E-01 0.826E-01 0.687E-01 AK basic 0.862E-01 0.859E-01 0.860E-01 0.839E-01 AK loose 0.866E-01 0.872E-01 0.867E-01 0.793E-01 AK lominal 0.867E-01 0.874E-01 0.867E-01 0.794E-01 AK tight 0.867E-01 0.874E-01 0.868E-01 0.790E-01 AK tighter 0.869E-01 0.870E-01 0.869E-01 0.778E-01 AK tightest 0.870E-01 0.872E-01 0.868E-01 0.777E-01 ************************ Tue Aug 24 10:08:32 EDT 2004 last nite i advertantly deleted all files in source from a*.f to i*.f (j*.f thru z*.f were unaffect cuz i control-c'ed). they were restored by rich horowitz to /tmp/e787u/djaffe/KOPIO/fastmc/source/ and I copied via cp /tmp/e787u/djaffe/KOPIO/fastmc/source/a*.f : : cp /tmp/e787u/djaffe/KOPIO/fastmc/source/h*.f it appears that file acceptable.f did NOT get restored all other files seem to be there. i remade fastmc.exe and checked for existence of all files past acceptable.f in Makefile.anal acceptable.f now restored. what got lost? nothing apparently. whew. Paolo Rumiero reports a bug in smear.f for backward going photons. source/smear.f - modified "fix bug for backwards going photons" test job Log file /e787u/djaffe/KOPIO/fastmc/scripts/../locallog/kp3.51999.41.240804.1508.log OK source/Makefile - modified "output is ../exe/fastmc.exe" ---------------------- some stats from Paolo Date: Tue, 24 Aug 2004 15:50:51 -0500 (CDT) From: Paolo Rumerio To: David E Jaffe Subject: Re: new smear.f David, with the old smear.f for 10,000 generated Kpnn I had 8,411 events with | Mgg-Mpi0 | < 30 MeV with the new smear.f that number goes to 8,413 Paolo --------------------- need a bunch more ke3g to study bkgd first clean up by removing all aspect4 files: before Filesystem 1k-blocks Used Available Use% Mounted on /dev/sdb2 35550516 32593048 2957468 92% /u1 /dev/sda4 30637428 27448424 1632708 95% /home after Filesystem 1k-blocks Used Available Use% Mounted on /dev/sdb2 35550516 28554768 6995748 81% /u1 /dev/sda4 30637428 25104432 3976700 87% /home only charged modes in standard bunch of jobs: % submit.standard.bunch.of.jobs.script submit.standard.bunch.of.jobs.script detector.21.dat key 10 logfile is ../log/standard.bunch.of.jobs.detector.21.dat.10.240804.1626.log ********************************** Wed Aug 25 20:56:39 EDT 2004 standard bunch of jobs done, add them to aspect1.bryman.list and make more % submit.standard.bunch.of.jobs.script detector.22.dat key 10 logfile is ../log/standard.bunch.of.jobs.detector.22.dat.10.250804.2101.log ************************* Fri Aug 27 17:04:46 EDT 2004 add results of standard bunch of jobs to aspect1.bryman.list and make more _djaffe[25]% submit.standard.bunch.of.jobs.script submit.standard.bunch.of.jobs.script detector.22.dat key 10 logfile is ../log/standard.bunch.of.jobs.detector.22.dat.10.270804.1704.log scripts/submit.standard.bunch.of.jobs.script - modified "change njob to 30 for ke3g" also run analysis job Log file /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.aspect1.bryman.270804.1706.log ******************************************** Mon Aug 30 09:29:46 EDT 2004 Dima discovers bug in get_pr_resolution and smear: returned angular resolution is the resolution used to smear the tracks, either sigma of the narrow or wide gaussian, it should be the sigma of the narrow gaussian. he will fix <<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<, Log file name is /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.aspect1.bryman.270804.1706.log Histogram file ../ntuples/anal.aspect1.bryman.270804.1706.rzn Start time is Fri Aug 27 17:06:31 EDT 2004 Finish time is Sat Aug 28 12:01:32 EDT 2004 List of ntuples 9490 Aug 27 12:07 aspect1.bryman.list Updated Akira OFFLINE fcn being used Using CV model 3 with PV boost Using CV model 3 with CV wrapper thickness= 1.00 mg/cm^2, Energy threshold=0.500E-01 MeV Using CV model 3 with OPTIMISTIC INEFFYS Charged particle veto gate in ns = (-4.00 , 16.0 ) Use beta=1 for chgd tracks for evaluating CPV ineffy Process ONLY 2g fits Using AvdS photon veto with threshold= 3.000 MeV and exponent= 1.800 Use energy-dependent ineffy catcher model 1 Use charge veto approximation for annihilating e+ Allow vetoes thru US beam pipe in US wall. Thickness(US veto)= 80.00 X0(US veto)= 17.12 RL(US veto) in cm= 4.67 Require cos(Glo,Ghi) < 0.940 to veto on lower energy gamma from e+ annihilation Supplement Zeller cuts with Konaka wrap-around cuts Supplement Zeller cuts with Konaka slow Kpi3 cuts Remove upper P(K) cuts from MZ and AK cuts Vacuum vessel radius= 115.00 Z(US endplate)=1025.00 Z(DS endplate)=1414.00 1090.00 < Z(recon K0L) < 1365.00 X_0(PR)= 50.0 N(rad.lens in PR)= 2.0 [snip] PositionAtCV: Limits of new CV in decay region: X= 199.90 Y= 199.90 . Z(D4)= 1615.00 used as approximation of CV in D4 magnet X halfwidth Y halfwidth Z at US end Z at DS end Volume name 199.89999 199.89999 1015.00000 1415.00000 New CV in decay region 110.25000 11.55000 1415.00000 1615.00000 CV in DS pipe to D4 magnet 65.00000 5.00000 935.00000 1015.00000 CV in US pipe Times(s): Spill= 2.400 Interspill= 2.300 Running time=0.4320E+08 Running time(hrs)=0.1200E+05 Using Br(K0L -> pi0,nu,nubar) = 0.3000E-10 Total N(K0L) after spoiler=0.1271E+16 Total neutron interactions=-1.000 Mode Generated Effy(wt) N/N(Kpnn) Nev(mode) dNeV(mode) Who kpnn 0.1200E+07 0.8040E-03 1.000 30.65 0.2406 MZ kpnn 0.1200E+07 0.3028E-02 1.000 115.5 0.4506 DJ kpnn 0.1200E+07 0.2891E-02 1.000 110.2 0.4491 AK basic kpnn 0.1200E+07 0.1899E-02 1.000 72.40 0.3644 AK loose kpnn 0.1200E+07 0.1676E-02 1.000 63.89 0.3424 AK lominal kpnn 0.1200E+07 0.1143E-02 1.000 43.56 0.2827 AK tight kpnn 0.1200E+07 0.7536E-03 1.000 28.73 0.2297 AK tighter kpnn 0.1200E+07 0.6518E-03 1.000 24.85 0.2138 AK tightest *kpgg 0.3000E+06 0.3643E-10 0.2130E-02 0.6528E-01 0.2645E-01 MZ *kpgg 0.3000E+06 0.1369E-09 0.2124E-02 0.2453 0.7810E-01 DJ *kpgg 0.3000E+06 0.1404E-09 0.2283E-02 0.2516 0.5111E-01 AK basic *kpgg 0.3000E+06 0.5620E-10 0.1391E-02 0.1007 0.2688E-01 AK loose *kpgg 0.3000E+06 0.5252E-10 0.1473E-02 0.9410E-01 0.2688E-01 AK lominal *kpgg 0.3000E+06 0.3910E-10 0.1608E-02 0.7005E-01 0.2646E-01 AK tight *kpgg 0.3000E+06 0.3300E-10 0.2058E-02 0.5913E-01 0.2645E-01 AK tighter *kpgg 0.3000E+06 0.3158E-10 0.2277E-02 0.5658E-01 0.2644E-01 AK tightest *kp3 0.1200E+07 0.6153E-15 0.5370E-02 0.1646 0.1760E-01 MZ *kp3 0.1200E+07 0.1076E-14 0.2494E-02 0.2880 0.2831E-01 DJ *kp3 0.1200E+07 0.1995E-14 0.4842E-02 0.5336 0.7219E-01 AK basic *kp3 0.1200E+07 0.8812E-15 0.3256E-02 0.2357 0.2200E-01 AK loose *kp3 0.1200E+07 0.8806E-15 0.3687E-02 0.2355 0.2199E-01 AK lominal *kp3 0.1200E+07 0.6946E-15 0.4265E-02 0.1858 0.2077E-01 AK tight *kp3 0.1200E+07 0.5202E-15 0.4844E-02 0.1391 0.1818E-01 AK tighter *kp3 0.1200E+07 0.4809E-15 0.5177E-02 0.1286 0.1791E-01 AK tightest *kp2 0.1080E+08 0.1377E-11 0.5320E-01 1.630 0.4430E-01 MZ *kp2 0.1080E+08 0.5326E-10 0.5463 63.07 1.565 DJ *kp2 0.1080E+08 0.6510E-10 0.6997 77.10 2.915 AK basic *kp2 0.1080E+08 0.2745E-10 0.4491 32.52 1.905 AK loose *kp2 0.1080E+08 0.1614E-10 0.2992 19.12 1.742 AK lominal *kp2 0.1080E+08 0.5426E-11 0.1475 6.427 0.7626 AK tight *kp2 0.1080E+08 0.1077E-11 0.4439E-01 1.275 0.7949E-01 AK tighter *kp2 0.1080E+08 0.7648E-12 0.3645E-01 0.9057 0.4255E-01 AK tightest *ke4 0.6700E+07 0.4322E-10 0.9283E-01 2.845 1.200 MZ *ke4 0.6700E+07 0.7158E-10 0.4081E-01 4.712 2.047 DJ *ke4 0.6700E+07 0.8408E-10 0.5022E-01 5.535 1.742 AK basic *ke4 0.6700E+07 0.6078E-10 0.5526E-01 4.001 1.556 AK loose *ke4 0.6700E+07 0.5756E-10 0.5931E-01 3.789 1.552 AK lominal *ke4 0.6700E+07 0.5262E-10 0.7951E-01 3.464 1.549 AK tight *ke4 0.6700E+07 0.2739E-10 0.6277E-01 1.803 0.9179 AK tighter *ke4 0.6700E+07 0.2616E-10 0.6930E-01 1.722 0.9161 AK tightest *ke3g 0.4900E+07 0.1685E-10 2.467 75.60 13.47 MZ *ke3g 0.4900E+07 0.2174E-10 0.8449 97.54 15.14 DJ *ke3g 0.4900E+07 0.4922E-10 2.004 220.8 21.85 AK basic *ke3g 0.4900E+07 0.2454E-10 1.520 110.1 15.63 AK loose *ke3g 0.4900E+07 0.2415E-10 1.695 108.3 15.59 AK lominal *ke3g 0.4900E+07 0.1843E-10 1.898 82.67 13.38 AK tight *ke3g 0.4900E+07 0.1492E-10 2.330 66.95 12.21 AK tighter *ke3g 0.4900E+07 0.1318E-10 2.380 59.13 11.48 AK tightest *kcp3 0.6700E+07 0.1191E-07 0.6217E+05 0.1906E+07 0.1905E+07 MZ *kcp3 0.6700E+07 0.1346E-12 0.1865 21.54 19.30 DJ *kcp3 0.6700E+07 0.1193E-07 0.1732E+05 0.1909E+07 0.1905E+07 AK basic *kcp3 0.6700E+07 0.1191E-07 0.2632E+05 0.1906E+07 0.1905E+07 AK loose *kcp3 0.6700E+07 0.1191E-07 0.2983E+05 0.1906E+07 0.1905E+07 AK lominal *kcp3 0.6700E+07 0.1191E-07 0.4374E+05 0.1906E+07 0.1905E+07 AK tight *kcp3 0.6700E+07 0.1191E-07 0.6633E+05 0.1905E+07 0.1905E+07 AK tighter *kcp3 0.6700E+07 0.1191E-07 0.7669E+05 0.1905E+07 0.1905E+07 AK tightest Key N(Kpnn)/B d(S/B) Nev dNeV bkgd 0.1608E-04 0.1608E-04 0.1906E+07 0.1905E+07 MZ bkgd 0.6161 0.8112E-01 187.4 24.66 DJ bkgd 0.5772E-04 0.5760E-04 0.1909E+07 0.1905E+07 AK basic bkgd 0.3798E-04 0.3797E-04 0.1906E+07 0.1905E+07 AK loose bkgd 0.3352E-04 0.3350E-04 0.1906E+07 0.1905E+07 AK lominal bkgd 0.2286E-04 0.2286E-04 0.1906E+07 0.1905E+07 AK tight bkgd 0.1508E-04 0.1508E-04 0.1906E+07 0.1905E+07 AK tighter bkgd 0.1304E-04 0.1304E-04 0.1906E+07 0.1905E+07 AK tightest investigate the background sources, look at high weight events: kpgg EVTwt=0.1020E-04 PrecK= 421.4 ZrecK= 1248.7 event= 6769 Ptrue 420 1246 101 MeV gamma from KL into US hole, other 131MeV gamma hits PR kp2: EVTwt=0.3792E-05 PrecK= 595.2 ZrecK= 1262.2 event= 73757 572 1187 KL -> pi01,pi02; pi01 -> g1,e+,e-; pi02 -> g3,g4 candidate g1,g4 Thit e+ = -4.05ns OUTSIDE GATE due to mis-recon ZK. both e+e- hit US wall Thit e- = a-4.46ns OUTSIDE GATE g3 hits PR EVTwt=0.3277E-05 PrecK= 995.7 ZrecK= 1240.1 event= 100356 1001 1221 Kp2-even E* =229.7, E1*=91.45, E2*=138.3 82MeV g1 into US hole 93MeV g2 into BV EVTwt=0.4786E-05 PrecK= 2009.4 ZrecK= 1176.9 event= 26078 1806 1172 kp2-even E*=226.6 Emiss=410 46MeV g3 into BV 164 MeV g4 into catcher EVTwt=0.8046E-05 PrecK= 566.5 ZrecK= 1093.5 event= 107095 547 1054 Kp2-even E*=228.7 Emiss=277 g3 43MeV into US hole g4 173MeV into BV EVTwt=0.4267E-05 PrecK= 768.4 ZrecK= 1146.6 event= 83487 761.02 1126.26 Kp2-even E*=228.2 Emiss=263 153MeV g3 into BV 39MeV g4 into US hole ke4: EVTwt=0.1687E-03 PrecK= 534.7 ZrecK= 1153.8 event= 22982 3.3MeV pi- DIF, 6.3MeV mu+, thit=21ns 3.2MeV e+ into BV EVTwt=0.7796E-04 PrecK= 668.0 ZrecK= 1223.6 event= 23203 669.72 1222.84 10.4MeV pi- DIF, 7.5MeV mu- Thit=18.8ns 7.1MeV e+ into BV EVTwt=0.9152E-04 PrecK= 435.4 ZrecK= 1272.6 event= 35069 435.92 1266.91 Emiss=251 E*=210 3.7MeVpi-, Thit=25.8ns 6.8MeV e+ into UV ke3g: EVTwt=0.1998E-05 PrecK= 637.5 ZrecK= 1204.6 event= 133 640.49 1224.36 3.2MeV pi- DIF, 6.4MeV mu-, Thit=37.2ns consider overlapping photons for ke3g?? EVTwt=0.1159E-05 PrecK= 895.9 ZrecK= 1206.2 event= 2242 908.59 1187.12 16MeV pi- DIF, 6.4MeV mu-, Thit=19.5ns EVTwt=0.4329E-05 PrecK= 466.8 ZrecK= 1154.1 event= 4021 468.09 1154.79 3.2MeV pi- DIF, 4.9MeV mu-, Thit=28.9ns EVTwt=0.5726E-05 PrecK= 448.7 ZrecK= 1307.7 event= 3600 445.51 1298.96 9.7MeV pi-, Thit=18.1ns EVTwt=0.3344E-05 PrecK= 631.9 ZrecK= 1135.5 event= 2210 625.02 1113.78 14.1MeV pi- DIF, 2.5MeV mu-, thit=19ns EVTwt=0.1253E-05 PrecK= 1015.1 ZrecK= 1108.7 event= 5074 981.66 1081.21 17.4MeV pi- DIF, 18.2MeV mu- DIF, 52MeV e- Thit = 17.4ns this looks like a bug, here is the full event: ../ntuples/ke3g.91083.141.rzn.ntskim SELECT_SIGNAL:Ntrack= 12 Nrecon= 1 irec= 1 icut= 4 AKcut= -2 EVTwt=0.1253E-05 CPwt=0.6325 VEwt= 1.000 DKwt=0.1981E-05 PrecK= 1015.1 ZrecK= 1108.7 event= 5074 SELECT_SIGNAL: Mgg E1* E2* Epi* E1 E2 Mmiss Emiss DOCA T1-T2 SELECT_SIGNAL: 133.8 102.6 101.1 203.8 388.6 352.6 251.2 389.3 0.7705E-04 0.3815E-05 SELECT_SIGNAL:Track# 1 2 3 4 5 6 7 8 9 10 11 12 LastVol, LastPlane 2 6 2 2 2 6 4 6 4 6 4 6 4 6 6 1 2 2 6 2 6 3 6 1 SELECT_SIGNAL:PathLn -1.000 -1.000 -1.000 105.0 101.5 122.8 102.5 -1.000 -1.000 111.5 -1.000 -1.000 SELECT_SIGNAL:PV(E) 0.2500E-04 0.1063E-03 0.2815E-04 0.7978E-04 0.2594E-04 0.6341 0.2832E-04 0.1535E-03 0.5260E-02 0.2006E-02 0.5930E-02 0.3700E-02 SELECT_SIGNAL:KAMIPV 0.3000E-05 0.5083E-04 0.1405E-04 0.4044E-04 0.1295E-04 0.2500 0.1413E-04 0.7254E-04 0.5242E-03 0.2603E-03 0.5883E-03 0.3904E-03 SELECT_SIGNAL:PVE787 0.2500E-04 0.1974E-03 0.2909E-04 0.1259E-03 0.2620E-04 0.7963 0.2930E-04 0.3512E-03 0.2204E-01 0.5335E-02 0.2922E-01 0.9839E-02 SELECT_SIGNAL:Edeath 1100.61 157.00 370.02 182.86 388.02 1.98 351.93 123.87 33.14 52.85 30.69 40.33 SELECT_SIGNAL:Ebirth 1100.61 157.00 370.02 182.86 390.72 1.98 368.56 123.87 33.14 52.85 30.69 40.33 SELECT_SIGNAL:Pdeath 981.66 71.91 370.02 182.86 388.02 1.98 351.93 64.65 33.14 52.85 30.69 40.33 SELECT_SIGNAL: KE 602.94 17.43 369.51 182.86 388.02 1.98 351.93 18.21 33.14 52.34 30.69 40.33 SELECT_SIGNAL:Xdeath 16.97 49.15 -31.42 180.46 -0.14 102.98 -33.98 153.25 200.00 200.00 161.00 144.69 SELECT_SIGNAL:Ydeath -2.42 -13.82 -52.23 11.71 52.10 -100.20 -56.85 35.81 -98.79 41.83 -50.00 50.00 SELECT_SIGNAL:Zdeath 1081.21 1135.76 1395.00 1595.00 1415.00 1595.00 1415.00 2060.60 1118.97 2156.39 2057.64 2068.75 Fate, Parent Type 1 0 K0L 1 1 pi- 3 1 e+ 2 1 nu 2 1 gamm 2 3 gamm 2 3 gamm 1 2 mu- 2 2 nu 2 8 e- 2 8 nu 2 8 nu SELECT_SIGNAL:Weight 0.8797E-01 1.000 0.5209E-02 1.000 1.000 1.000 1.000 1.000 1.000 1.000 1.000 1.000 SELECT_SIGNAL: WT = 0.8797E-01 1.000 0.2252E-04 1.000 1.000 1.000 1.000 1.000 1.000 1.000 1.000 1.000 SELECT_SIGNAL: CP = 1.000 1.000 1.000 1.000 0.7937 0.8521 0.7969 1.000 1.000 1.000 1.000 1.000 SELECT_SIGNAL: VE = 1.000 1.000 1.000 1.000 0.2181E-04 1.000 0.2424E-04 1.000 1.000 1.000 1.000 1.000 SELECT_SIGNAL:Thit = 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 0.000 17.42 0.000 0.000 SELECT_SIGNAL:EffRec 0.1253E-05 SELECT_SIGNAL:RecItk 5 7 note mu-,e- are way DS of z=1615cm, should be pi- that is considered as CPV hit. EVTwt=0.1357E-05 PK= 815.4 ZrecK= 1282.0 event= 4684 815.23 1270.64 6.1MeV pi- Thit=23ns EVTwt=0.4175E-05 PrecK= 419.8 ZrecK= 1323.7 event= 2557 423.66 1339.57 3.36MeV pi-, thit=47ns EVTwt=0.1531E-05 PrecK= 808.1 ZrecK= 1201.1 event= 3489 810.98 1177.11 11MeV pi- DIF, 2.2MeV mu-, Thit=26ns EVTwt=0.1329E-05 PrecK= 790.1 ZrecK= 1126.0 event= 1270 789.68 1135.61 8MeV pi- DIF, 12MeV mu-, Thit=22ns EVTwt=0.1800E-05 PrecK= 578.1 ZrecK= 1130.5 event= 4038 581.39 1145.24 1.6MeV pi- DIF, 7.3MeV mu-, Thit=22.7ns EVTwt=0.4161E-05 PrecK= 444.6 ZrecK= 1187.3 event= 735 450.49 1192.99 2.6MeV pi- DIF, 5.3MeV mu-, 33ns EVTwt=0.1432E-05 PrecK= 935.6 ZrecK= 1342.8 event= 2700 880.74 1107.63 270MeV pi-, Thit=-4.8ns categorize remaining(previous) ke3g: late pi- 9 + (3) = 12 late mu- 22 + (8)= 30 late e- 0 + (1) = 1 misrecon ZK (1) = 1 kc3p: EVTwt=0.8082E-06 CPwt=0.6741 VEwt=0.1000E-04 DKwt=0.1199 PrecK= 450.4 ZrecK= 1224.3 event= 15758 Emiss = 262.0 4.2MeV pi- Thit=18.5ns 19MeV pi+ DIF, 7MeV mu+ Thit=6.9ns debug event 5074 of ../ntuples/ke3g.91083.141.rzn.ntskim source/getcandwt.f - modified "modify debug output" no bug found by 5074, routine simply assigns hit time to last particle in decay chain, event if parent (or grandparent) actually produced the hit. summarize hi wt event results for /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.aspect1.bryman.270804.1706.log kpgg: 1evt: g into US hole kp2: 1 kp2-odd dalitz decay and mis-recon ZK 4 kp2-even : 1 with g into catcher 3 with g into US hole ke4: 3 events: 1 slow pi- 2 pi- DIF ke3g: 44 events 12 slow pi- 31 pi- DIF 1 misrecon ZK kcp3: 1 slow pi- Mnu2 cut at <0 (MeV/c^2)^2 looks like it would be very effective against kcp3, ke3g. less effective against ke4 pve787.kumac - modified "add more plot options" Mnu2-dependent gate, move CPV to 100 x 50 cm (halfwidths) % analysis.script kpnn.ke4.ke3g.kcp3.aspect1.bryman.list ../geometry/detector.22.dat & Log file /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.kpnn.ke4.ke3g.kcp3.aspect1.bryman.300804.1638.log oops, cant' have 100 x 50 cm in decay region cuz: X halfwidth Y halfwidth Z at US end Z at DS end Volume name 100.00000 50.00000 1015.00000 1415.00000 New CV in decay region 110.25000 11.55000 1415.00000 1615.00000 CV in DS pipe to D4 magnet 65.00000 5.00000 935.00000 1015.00000 CV in US pipe try again: Log file /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.kpnn.ke4.ke3g.kcp3.aspect1.bryman.300804.1643.log ************************************************ Tue Aug 31 09:19:56 EDT 2004 Log file name is /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.kpnn.ke4.ke3g.kcp3.aspect1.bryman.300804.1643.log Histogram file ../ntuples/anal.kpnn.ke4.ke3g.kcp3.aspect1.bryman.300804.1643.rzn Start time is Mon Aug 30 16:43:06 EDT 2004 Finish time is Mon Aug 30 19:36:17 EDT 2004 List of ntuples 8899 Aug 30 16:38 kpnn.ke4.ke3g.kcp3.aspect1.bryman.list Updated Akira OFFLINE fcn being used Using CV model 3 with PV boost Using CV model 3 with CV wrapper thickness= 1.00 mg/cm^2, Energy threshold=0.500E-01 MeV Using CV model 3 with OPTIMISTIC INEFFYS Use Mnu2-dependent CPVetoGate width = (tlo,thi) ns defined as follows If Mnu2 < -.8000E+05 , then tlo= -2.000 , thi= 8.000 If Mnu2 > -.2000E+05 , then tlo= -4.000 , thi= 20.00 If -.8000E+05 < Mnu2 < -.2000E+05 , then tlo= -4.000 , thi is calculated by linear interp. btwn t= 8.000 at Mnu2= -.8000E+05 and t= 20.00 at Mnu2= -.2000E+05 Use beta=1 for chgd tracks for evaluating CPV ineffy Process ONLY 2g fits Using AvdS photon veto with threshold= 3.000 MeV and exponent= 1.800 Use energy-dependent ineffy catcher model 1 Use charge veto approximation for annihilating e+ Allow vetoes thru US beam pipe in US wall. Thickness(US veto)= 80.00 X0(US veto)= 17.12 RL(US veto) in cm= 4.67 Require cos(Glo,Ghi) < 0.940 to veto on lower energy gamma from e+ annihilation Supplement Zeller cuts with Konaka wrap-around cuts Supplement Zeller cuts with Konaka slow Kpi3 cuts Remove upper P(K) cuts from MZ and AK cuts Vacuum vessel radius= 115.00 Z(US endplate)=1025.00 Z(DS endplate)=1414.00 1090.00 < Z(recon K0L) < 1365.00 X_0(PR)= 50.0 N(rad.lens in PR)= 2.0 [snip] PositionAtCV: Limits of new CV in decay region: X= 111.00 Y= 50.00 . Z(D4)= 1615.00 used as approximation of CV in D4 magnet X halfwidth Y halfwidth Z at US end Z at DS end Volume name 111.00000 50.00000 1015.00000 1415.00000 New CV in decay region 110.25000 11.55000 1415.00000 1615.00000 CV in DS pipe to D4 magnet 65.00000 5.00000 935.00000 1015.00000 CV in US pipe Times(s): Spill= 2.400 Interspill= 2.300 Running time=0.4320E+08 Running time(hrs)=0.1200E+05 Using Br(K0L -> pi0,nu,nubar) = 0.3000E-10 Total N(K0L) after spoiler=0.1271E+16 Total neutron interactions=-1.000 Mode Generated Effy(wt) N/N(Kpnn) Nev(mode) dNeV(mode) Who kpnn 0.1200E+07 0.8040E-03 1.000 30.65 0.2406 MZ kpnn 0.1200E+07 0.3028E-02 1.000 115.5 0.4506 DJ kpnn 0.1200E+07 0.2891E-02 1.000 110.2 0.4491 AK basic kpnn 0.1200E+07 0.1899E-02 1.000 72.40 0.3644 AK loose kpnn 0.1200E+07 0.1676E-02 1.000 63.89 0.3424 AK lominal kpnn 0.1200E+07 0.1143E-02 1.000 43.56 0.2827 AK tight kpnn 0.1200E+07 0.7536E-03 1.000 28.73 0.2297 AK tighter kpnn 0.1200E+07 0.6518E-03 1.000 24.85 0.2138 AK tightest *ke4 0.7700E+07 0.1584E-10 0.3403E-01 1.043 0.2038 MZ *ke4 0.7700E+07 0.1752E-10 0.9989E-02 1.153 0.2078 DJ *ke4 0.7700E+07 0.5065E-10 0.3025E-01 3.334 1.120 AK basic *ke4 0.7700E+07 0.4116E-10 0.3742E-01 2.709 1.110 AK loose *ke4 0.7700E+07 0.3845E-10 0.3961E-01 2.531 1.105 AK lominal *ke4 0.7700E+07 0.3468E-10 0.5240E-01 2.283 1.101 AK tight *ke4 0.7700E+07 0.1230E-10 0.2818E-01 0.8095 0.1779 AK tighter *ke4 0.7700E+07 0.1063E-10 0.2815E-01 0.6994 0.1637 AK tightest *ke3g 0.7800E+07 0.1702E-11 0.2490 7.633 3.490 MZ *ke3g 0.7800E+07 0.6074E-11 0.2360 27.25 5.907 DJ *ke3g 0.7800E+07 0.5671E-11 0.2308 25.44 5.211 AK basic *ke3g 0.7800E+07 0.2795E-11 0.1732 12.54 3.944 AK loose *ke3g 0.7800E+07 0.2373E-11 0.1666 10.65 3.758 AK lominal *ke3g 0.7800E+07 0.2092E-11 0.2154 9.384 3.692 AK tight *ke3g 0.7800E+07 0.1794E-11 0.2801 8.048 3.587 AK tighter *ke3g 0.7800E+07 0.1583E-11 0.2857 7.099 3.466 AK tightest *kcp3 0.7700E+07 0.6876E-14 0.3589E-01 1.100 0.1727 MZ *kcp3 0.7700E+07 0.1403E-13 0.1944E-01 2.245 0.1681 DJ *kcp3 0.7700E+07 0.2146E-11 3.115 343.3 143.0 AK basic *kcp3 0.7700E+07 0.2276E-13 0.5030E-01 3.642 0.3001 AK loose *kcp3 0.7700E+07 0.2273E-13 0.5693E-01 3.637 0.3001 AK lominal *kcp3 0.7700E+07 0.1467E-13 0.5389E-01 2.348 0.2959 AK tight *kcp3 0.7700E+07 0.6343E-14 0.3532E-01 1.015 0.1724 AK tighter *kcp3 0.7700E+07 0.4540E-14 0.2923E-01 0.7263 0.1708 AK tightest Key N(Kpnn)/B d(S/B) Nev dNeV bkgd 3.135 1.123 9.776 3.500 MZ bkgd 3.767 0.7270 30.65 5.913 DJ bkgd 0.2962 0.1139 372.1 143.1 AK basic bkgd 3.833 0.8338 18.89 4.108 AK loose bkgd 3.800 0.8879 16.81 3.928 AK lominal bkgd 3.109 0.8574 14.01 3.864 AK tight bkgd 2.910 1.060 9.872 3.596 AK tighter bkgd 2.915 1.188 8.525 3.474 AK tightest [snip] GETNGEN ERROR: database does not contain ../ntuples/ke3g.91120.141.rzn.ntskim GETNGEN error did not bias analysis since ntuple-making wasn't completed and ntuple could not be read. so only a loss of stats analysis of hi wt events ke4 : none kcp3: none ke3g : slow pi- 1 slow mu- 4 misrecon KL 13 (12 pi- & 1 mu-) total weight 2.9495e-5 slow weights 0.1345E-05 +0.1433E-05 +0.1998E-05 +0.2149E-05 +0.4926E-05 = 1.1851e-5 (40.2% of wegights) misrecon weights = 1.7644 (59.8% of weights) ***************************************** Thu Sep 2 15:32:46 EDT 2004 Dima sent new code for expanding ntuple to include uncertainties on fitted quantities as well as some quantities from the first fit. create /e787u/djaffe/KOPIO/Managefastmc/Contributions/v1_4/Dima and park stuff there. here is list of modified and new routines from Dima: source/fitpi0.f - modified "Dima's mods for new ntuple variables and some fixes" source/recon.f - modified "Dima's mods for new ntuple variables and some fixes" source/userinit.f - modified "Dima's mods for new ntuple variables and some fixes" source/reconinfo.inc - modified "Dima's mods for new ntuple variables and some fixes" source/get_pr_resolution.f - modified "Dima's mods for new ntuple variables and some fixes" source/smear.f - modified "Dima's mods for new ntuple variables and some fixes" source/trackinfo.inc - modified "Dima's mods for new ntuple variables and some fixes" source/Makefile - modified "add kinfun kinerpropg kineraid from Dima" source/kinerpropg.f - new "Dima's additions for new ntuple variables" source/kinfun.f - new "Dima's additions for new ntuple variables" source/kineraid.f - new "Dima's additions for new ntuple variables" source/fitpi0.inc - new "Dima's additions for new ntuple variables" no burnt bridges, in source/ % cp fitpi0.f fitpi0.f.before.Dima % cp recon.f recon.f.before.Dima % cp userinit.f userinit.f.before.Dima % cp reconinfo.inc reconinfo.inc.before.Dima % cp get_pr_resolution.f get_pr_resolution.f.before.Dima % cp smear.f smear.f.before.Dima % cp trackinfo.inc trackinfo.inc.before.Dima % cp Makefile Makefile.before.Dima note that I've made mods to smear.f also <<<<<< some questions for Dima: fitpi0.f - stop statements: array bounds check get_pr_resolution.f - ok recon.f - why only fit errors calculated for 2gPR fits? can be done for all fits, later, if needed smear.f - ok userinit.f - how about Recon2 for new block? NO, Need Nrecon in new block. reconinfo.f - ok trackinfo.f - ok 'play' -> 'thrown' % cp /e787u/djaffe/KOPIO/Managefastmc/Contributions/v1_4/Dima/*.inc . % cp /e787u/djaffe/KOPIO/Managefastmc/Contributions/v1_4/Dima/*.f . added my modifs to smear.f Paolo found another bug related to backwards-going photons. The bug is in s/r XPAR. source/xpar.f - modified "add arg to fix bug for backward-going photon" source/recon.f - modified "add SignOfPz to fix bug for backward-going photon" test job: % run.fastmc.script kpnn 1 10000 11999 0 4 1 & Log file /e787u/djaffe/KOPIO/fastmc/scripts/../locallog/kpnn.11999.41.020904.1837.log got nan pbs ****************************************************** Fri Sep 3 08:54:17 EDT 2004 added some temp debug to fitpi0 to find nan source/fitpi0.f - modified "TEMPORARY Look for NAN" source/transfer2_1.f - modified "TEMPORARY Look for NAN" found nan in reccov1 ********************************************** Tue Sep 7 13:20:39 EDT 2004 after long discussion with Dima, Paolo, decide that only way to solve ambiguity in transformation is to use polar coordinates so OLD: E,t,x,y,z,Txz,Tyz NEW: E,t,x,y,z,theta,phi or is it better to use cos(theta) instead of theta? backup all code before making modifications: % cp -Rv source /u1/djaffe/KOPIO/fastmc/beforeThetaPhi/. list all files that use Txz,Tyz % grep -i -E 'txz|tyz' source/*.f source/*.inc source/*.cmn | awk -F: '{print $1}' | sort | uniq source/cfun_1g.f DONE source/cfun.f DONE source/detector.f NO MOD NEEDED source/fitpi0.f NO MOD NEEDED source/fitpi0.inc NO MOD NEEDED source/get_pr_resolution.f NO MOD NEEDED source/init.f NO MOD NEEDED source/recon.f DONE source/rhistory.f NO MOD NEEDED source/smear.f DONE source/smear.inc NO MOD NEEDED source/trackinfo.inc NO MOD NEEDED source/try.f NO MOD NEEDED source/userinit.f NO MOD NEEDED source/xpar.f DONE save ntuple from last job for comparison after changes. % mv ../localntuples/kpnn.11999.41.rzn.gz ../localntuples/kpnn.11999.41.before.theta.phi.rzn.gz logfile: /e787u/djaffe/KOPIO/fastmc/scripts/../locallog/kpnn.11999.41.030904.0943.log after some more discussion, we realize that current parametrization can still be used if Z(K) is taken into account. source/cfun.f - modified "resolve sign ambiguity in Txz,Tyz using z(hit),z(k)" source/recon.f - modified "resolve sign ambiguity in Txz,Tyz using z(hit),z(k)" test, use same random seeds as before: % run.fastmc.script kpnn 1 10000 11999 0 4 1 detector.dat default.decay.dat 1.1 0& Log file /e787u/djaffe/KOPIO/fastmc/scripts/../locallog/kpnn.11999.41.070904.1639.log oops, wrong sign used in cfun, try again Log file /e787u/djaffe/KOPIO/fastmc/scripts/../locallog/kpnn.11999.41.070904.1649.log OK, no NANs now, but is everything calculated correctly? check tomorrow... ************************************ 8sept04 added 3 new files from Hideki: DataBase/catcher.ineffy.thres1.4pe.thres2.2pe.1-10mev.dat - new "catcher ineffy files" DataBase/catcher.ineffy.thres1.4pe.thres2.2pe.10-100mev.dat - new "catcher ineffy files" DataBase/catcher.ineffy.thres1.4pe.thres2.2pe.100-1000mev.dat - new "catcher ineffy files" study of latest ntuple shows some events where px(rec) = -px(true), etc for all components. idnevt= 189 Xtrue= 18.2 -3.2 1415.0 18.8 -3.6 1415.0 Ptrue= 38.3 -95.4 800.2 -50.6 10.5 180.9 Xreco= 18.3 -3.0 1415.0 18.6 -3.2 1415.0 Preco= -37.9 95.0 -797.6 47.9 -9.2 -178.9 Ktrue= 19.5 -3.3 1413.0 16.1 -2.6 1087.7 Kreco= 18.3 -3.1 1416.1 14.5 -2.5 1122.7 here is same event from original fit kpnn.11999.41.before.theta.phi idnevt= 189 Xtrue= 18.2 -3.2 1415.0 18.8 -3.6 1415.0 Ptrue= 38.3 -95.4 800.2 -50.6 10.5 180.9 Xreco= 18.3 -3.0 1415.0 18.6 -3.2 1415.0 Preco= 37.9 -95.0 797.6 -47.9 9.2 178.9 Ktrue= 19.5 -3.3 1413.0 16.1 -2.6 1087.7 Kreco= 18.3 -3.1 1416.1 14.4 -2.5 1112.8 I note that other events in latest ntuple with this problem all have Z(K) near 1415cm and ZKrec>1415 Paolo suggests using information about where the hit occurred. this will solve the problem. source/hitinfo.inc - new "info on where photon 'converted'" test /e787u/djaffe/KOPIO/fastmc/scripts/../locallog/kpnn.11999.41.080904.1523.log add more debug /e787u/djaffe/KOPIO/fastmc/scripts/../locallog/kpnn.11999.41.080904.1545.log RECON:gamma1. itk= 5 P= 38.3 -95.4 800. 807. X= 18.2 -3.16 0.142E+04 T= 51.5 RECON:gamma2. itk= 6 P= -50.6 10.5 181. 188. X= 18.8 -3.61 0.142E+04 T= 51.9 [snip] XPAR in1 : E= 806.8 T= 51.7 x= 18.3 y= -3.0 z= 1415.0 Txz= 0.0 Tyz= -0.1 XPARout1 : Px= -38.3 Py= 95.4 Pz= -800.2 E= 806.8 x= 18.3 y= -3.0 z= 1415.0 T= 51.7 XPAR in2 : E= 188.2 T= 51.7 x= 18.6 y= -3.2 z= 1415.0 Txz= -0.3 Tyz= 0.1 XPARout2 : Px= -50.6 Py= 10.6 Pz= 180.9 E= 188.2 x= 18.6 y= -3.2 z= 1415.0 T= 51.7 XPAR in1 : E= 804.1 T= 51.7 x= 18.3 y= -3.0 z= 1415.0 Txz= 0.0 Tyz= -0.1 XPARout1 : Px= -37.9 Py= 95.0 Pz= -797.6 E= 804.1 x= 18.3 y= -3.0 z= 1415.0 T= 51.7 XPAR in2 : E= 185.5 T= 51.7 x= 18.6 y= -3.2 z= 1415.0 Txz= -0.3 Tyz= 0.1 XPARout2 : Px= -47.9 Py= 9.2 Pz= 178.9 E= 185.5 x= 18.6 y= -3.2 z= 1415.0 T= 51.7 increase debug level: Log file /e787u/djaffe/KOPIO/fastmc/scripts/../locallog/kpnn.11999.41.080904.1550.log more debug in cfun: Log file /e787u/djaffe/KOPIO/fastmc/scripts/../locallog/kpnn.11999.41.080904.1557.log at final step in minimization: CFUN:in PAR= 804. 51.7 18.3 -3.00 0.142E+04 0.475E-01 -.119 185. 51.7 18.6 -3.19 0.141E+04 -.268 0.516E-01 -3.13 18.3 0.142E+04 51.7 CFUN:P1= 37.9 -95.0 798. P2= -47.9 9.23 179. CFUN:out IERR= 0 constraint# 7 CFUN=-.4302E-04 in Recon: XPAR in1 : E= 804.1 T= 51.7 x= 18.3 y= -3.0 z= 1415.0 Txz= 0.0 Tyz= -0.1 XPARout1 : Px= -37.9 Py= 95.0 Pz= -797.6 E= 804.1 x= 18.3 y= -3.0 z= 1415.0 T= 51.7 XPAR in2 : E= 185.5 T= 51.7 x= 18.6 y= -3.2 z= 1415.0 Txz= -0.3 Tyz= 0.1 XPARout2 : Px= -47.9 Py= 9.2 Pz= 178.9 E= 185.5 x= 18.6 y= -3.2 z= 1415.0 T= 51.7 sign of Px differs between minimization and recon for 1st photon source/xpar.f - modified "add debug" again: Log file /e787u/djaffe/KOPIO/fastmc/scripts/../locallog/kpnn.11999.41.080904.1633.log more debug in recon: Log file /e787u/djaffe/KOPIO/fastmc/scripts/../locallog/kpnn.11999.41.080904.1635.log typo in recon!!! fixed Log file /e787u/djaffe/KOPIO/fastmc/scripts/../locallog/kpnn.11999.41.080904.1637.log new puzzle: original event kpnn.11999.41.before.theta.phi.rzn idnevt= 3049 Xtrue= 200.4 100.6 1365.0 86.0 47.6 1415.0 Ptrue= 136.6 96.5 295.0 40.4 48.3 338.9 Xreco= 200.3 100.6 1365.0 86.1 47.6 1415.0 Preco= 146.8 100.3 302.6 32.9 47.4 352.4 Ktrue= 57.0 -1.1 1061.6 52.6 -1.0 933.1 Kreco= 53.1 0.0 1061.4 46.2 0.0 923.2 now kpnn.11999.41.rzn idnevt= 3049 Xtrue= 200.4 100.6 1365.0 86.0 47.6 1415.0 Ptrue= 136.6 96.5 295.0 40.4 48.3 338.9 Xreco= 200.3 100.7 1365.0 86.1 47.6 1415.0 Preco= 36.5 24.3 76.4 5.2 6.6 50.2 Ktrue= 57.0 -1.1 1061.6 52.6 -1.0 933.1 Kreco= 48.3 -0.6 1046.5 42.3 -0.5 916.5 source/recon.f - modified "TEMPORARY DEBUG OUTPUT" check Log file /e787u/djaffe/KOPIO/fastmc/scripts/../locallog/kpnn.11999.41.080904.1650.log before fit RECON:gamma1. itk= 5 P= 137. 96.5 295. 339. X= 200. 101. 0.136E+04 T= 51.9 HitPR=F RECON:gamma2. itk= 6 P= 40.4 48.3 339. 345. X= 86.0 47.6 0.142E+04 T= 52.3 HitPR=T at start of 2d fit CFUN:in PAR= 339. 51.9 200. 101. 0.136E+04 0.463 0.327 345. 52.3 86.0 47.6 0.142E+04 0.119 0.143 0.00 47.3 0.104E+04 39.7 CFUN:P1= -137. -96.5 -295. P2= 40.4 48.3 339. CFUN:out IERR= 0 constraint# 7 CFUN=-539.0 sign error in cfun Log file /e787u/djaffe/KOPIO/fastmc/scripts/../locallog/kpnn.11999.41.080904.1656.log for kpnn.11999.41.rzn idnevt= 3049 Xtrue= 200.4 100.6 1365.0 86.0 47.6 1415.0 Ptrue= 136.6 96.5 295.0 40.4 48.3 338.9 Xreco= 200.3 100.6 1365.0 86.1 47.6 1415.0 Preco= 146.8 100.3 302.6 32.9 47.4 352.4 Ktrue= 57.0 -1.1 1061.6 52.6 -1.0 933.1 Kreco= 53.1 0.0 1061.4 46.2 0.0 923.2 new mystery: kpnn.11999.41.rzn idnevt= 8192 Xtrue= -94.5 201.3 1346.0 -49.2 -200.3 1330.5 Ptrue= -0.4 -34.1 0.5 5.3 -119.1 15.5 Xreco= -40.8 167.5 1346.0 -60.7 -124.7 1330.5 Preco= 0.8 124.3 -1.9 -122.7 198.1 -139.6 Ktrue= -60.7 -1.2 1306.6 -31.9 -0.6 654.7 Kreco= -42.7 -153.7 1350.9 -22.2 -79.7 700.5 kpnn.11999.41.before.theta.phi.rzn idnevt= 8192 Xtrue= -94.5 201.3 1346.0 -49.2 -200.3 1330.5 Ptrue= -0.4 -34.1 0.5 5.3 -119.1 15.5 Xreco= -40.8 167.5 1346.0 -60.7 -124.7 1330.5 Preco= -0.8 -124.3 1.9 122.7 -198.1 139.6 Ktrue= -60.7 -1.2 1306.6 -31.9 -0.6 654.7 Kreco= -42.7 -153.7 1350.9 -14.2 -51.0 447.8 actually both fits are crap study the fit Log file /e787u/djaffe/KOPIO/fastmc/scripts/../locallog/kpnn.11999.41.080904.2041.log XPAR in1 : E= 34.1 T= 66.1 x= -58.5 y= 160.9 z= 1346.0 Txz= -0.4 Tyz= -65.3 SignOfPz=-1.0 XPARout1 : Px= 0.2 Py= 34.1 Pz= -0.5 E= 34.1 x= -58.5 y= 160.9 z= 1346.0 T= 66.1 XPAR in2 : E= 120.2 T= 57.0 x= -56.9 y= -116.3 z= 1330.5 Txz= -0.2 Tyz= -2.6 SignOfPz=-1.0 XPARout2 : Px= 7.8 Py= 111.9 Pz= -43.3 E= 120.2 x= -56.9 y= -116.3 z= 1330.5 T= 57.0 XPAR in1 : E= 124.4 T= 66.2 x= -40.8 y= 167.5 z= 1346.0 Txz= -0.4 Tyz= -65.2 SignOfPz=-1.0 XPARout1 : Px= 0.8 Py= 124.3 Pz= -1.9 E= 124.4 x= -40.8 y= 167.5 z= 1346.0 T= 66.2 XPAR in2 : E= 271.7 T= 56.9 x= -60.7 y= -124.7 z= 1330.5 Txz= 0.9 Tyz= -1.4 SignOfPz=-1.0 XPARout2 : Px= -122.7 Py= 198.1 Pz= -139.6 E= 271.7 x= -60.7 y= -124.7 z= 1330.5 T= 56.9 Log file /e787u/djaffe/KOPIO/fastmc/scripts/../locallog/kpnn.11999.41.080904.2050.log solution appears to be adequate. need to fix other constraints, etc. ********************************************** Thu Sep 9 08:46:41 EDT 2004 source/cfun_1g.f - modified "resolve Txz,Tyz ambiguity" source/cfun_0g.f - modified "resolve Txz,Tyz ambiguity" fix stored resolutions for Bryman model: returned quantities sxz,syz, etc. are the uncertainties on projections of the angle used to smear. Convert them to the uncertainties on the tangent of the angle. source/smear.f - modified "convert sigma(angle) to sigma(tan(angle)) for Bryman model" why is smear.inc in beam_collimator? source/beam_collimator.f - modified "remove smear.inc" recompile and link preserve ntuple % mv ../localntuples/kpnn.11999.41.rzn ../localntuples/kpnn.11999.41.before.sec2rzn % mv /e787u/djaffe/kopio/fastmc/ntuples/kpnn.11999.41.before.sec2rzn /e787u/djaffe/kopio/fastmc/ntuples/kpnn.11999.41.before.sec2.rzn run.fastmc.script kpnn 1 10000 11999 0 4 1 detector.dat default.decay.dat 1.1 0 & Log file /e787u/djaffe/KOPIO/fastmc/scripts/../locallog/kpnn.11999.41.090904.1014.log bunch of reports that reccov is nan screwed calculation of sec^2, try again Log file /e787u/djaffe/KOPIO/fastmc/scripts/../locallog/kpnn.11999.41.090904.1206.log *** Track history. Event# 9847 TRANSFER2_1:reccov is nan ******* # ID Name Mom Px Py Pz E Ptot Xbirth Ybirth Zbirth Xdeath Ydeath Zdeath Tbirth Tdeath Weight Smeared Fate 1 8 K0L 0 -13.3 0.2 805.9 947.2 806.0 0.8 0.0 0.8 -22.4 0.5 1406.5 0.0 55.2 0.984E-01 0 1 DKD Decay vol -13.3 0.2 805.9 947.2 at death 0.0 0.0 0.0 497.7 in K0L CMS 2 5 pi0 1 68.7 -34.4 62.4 167.4 98.9 -22.4 0.5 1406.5 -22.4 0.5 1406.5 55.2 55.2 1.00 0 1 DKD Decay vol 68.7 -34.4 62.4 167.4 at death 72.2 -34.4 -153.2 219.3 in K0L CMS 3 2 nu 1 -132.5 90.3 496.8 522.0 522.0 -22.4 0.5 1406.5 -38.7 11.6 1467.5 55.2 57.3 1.00 0 2 Hit top DS hole -132.5 90.3 496.8 522.0 at death -126.0 90.2 102.2 185.6 in K0L CMS 4 2 nu 1 50.6 -55.7 246.6 257.8 257.8 -22.4 0.5 1406.5 -11.5 -11.6 1459.6 55.2 57.0 1.00 0 2 Hit bottom DS hole 50.6 -55.7 246.6 257.8 at death 53.8 -55.7 51.1 92.8 in K0L CMS 5 1 gamm 2 105.4 -7.3 61.2 122.1 122.1 -22.4 0.5 1406.5 -9.7 0.0 1415.0 55.2 55.8 1.00 2 2 Hit bottom DS hole 105.4 -7.3 61.2 122.1 at death 108.0 -10.9 -81.6 135.8 in K0L CMS 6 1 gamm 2 43.1 3.4 -0.3 43.2 43.2 -22.4 0.5 1406.5 -202.8 -112.3 1403.5 55.2 62.2 1.00 2 2 Hit right Decay vol 43.1 3.4 -0.3 43.2 at death -35.8 -23.5 -71.6 83.5 in K0L CMS ***** ERROR in HFNT bad float in column: 50 line: 1 : Quiet NaN : ID= 1 ***** ERROR in HFNT bad float in column: 50 line: 2 : Quiet NaN : ID= 1 ***** ERROR in HFNT bad float in column: 50 line: 3 : Quiet NaN : ID= 1 ***** ERROR in HFNT bad float in column: 50 line: 4 : Quiet NaN : ID= 1 ***** ERROR in HFNT bad float in column: 50 line: 5 : Quiet NaN : ID= 1 ***** ERROR in HFNT bad float in column: 50 line: 6 : Quiet NaN : ID= 1 ***** ERROR in HFNT bad float in column: 50 line: 7 : Quiet NaN : ID= 1 ***** ERROR in HFNT bad float in column: 50 line: 8 : Quiet NaN : ID= 1 ***** ERROR in HFNT bad float in column: 50 line: 9 : Quiet NaN : ID= 1 ***** ERROR in HFNT bad float in column: 50 line: 10 : Quiet NaN : ID= 1 Dima said he fixed the original source of this problem with some new code. park it in /e787u/djaffe/KOPIO/Managefastmc/Contributions/v1_4/Dima7sept04 here is his email ----------------- Date: Tue, 07 Sep 2004 18:20:44 -0400 From: Dmitriy Vavilov To: David E Jaffe Subject: New code (for putting errors in the ntuple) - II David, A new tar ball is ~vavilov/kopio/fastmc/upd07Sep04_err.tar.gz. Basically 4 routine were improved: recon.f - propagated errors are fed to ntuple only after checking that conditions necessary for their calculation are met. New ntuple variable Logical RecPropOK(nrecon) tells one when it happens (otherwise they are filled with zeros). reconinfo.inc - new variable RecPropOK(nrecon) is added kinfun.f - tests for validity of calculation and diagnostic printing out are added. kineraid.f - descriptions are added Dima. ------------------------------------------------------ no burnt bridges: % cp recon.f recon.f.before.Dima.9sept04 % cp reconinfo.inc reconinfo.inc.before.Dima.9sept04 % cp kinfun.f kinfun.f.before.Dima.9sept04 % cp kineraid.f kineraid.f.before.Dima.9sept04 replace these 3 with Dima's new routines: % cp /e787u/djaffe/KOPIO/Managefastmc/Contributions/v1_4/Dima7sept04/kineraid.f . % cp /e787u/djaffe/KOPIO/Managefastmc/Contributions/v1_4/Dima7sept04/kinfun.f . % cp /e787u/djaffe/KOPIO/Managefastmc/Contributions/v1_4/Dima7sept04/reconinfo.inc . it will be easier to put my mods into Dima's code % cp /e787u/djaffe/KOPIO/Managefastmc/Contributions/v1_4/Dima7sept04/recon.f . done, remove all objects, recompile,link,test Log file /e787u/djaffe/KOPIO/fastmc/scripts/../locallog/kpnn.11999.41.090904.1315.log no complaints about nan source/transfer2_1.f - modified "add check for nan" here is event with recpropok = false when recierr=0 idnevt= 9847 kpnn.11999.41.rzn Xtrue= -9.7 0.0 1415.0 -202.8 -112.3 1403.5 Ptrue= 105.4 -7.3 61.2 43.1 3.4 -0.3 Xreco= -9.8 0.5 1415.0 -202.6 -112.3 1403.5 Preco= 102.4 -0.8 60.0 -36.3 -10.4 -11.8 Ktrue= -22.4 0.5 1406.5 -13.3 0.2 805.9 Kreco= 185.2 -1.0 1529.2 142.4 -0.8 1176.1 positions of photons OK, momentum of 2d gamma is way off (Px<0 instead of Px>0) recon P,Z of K are >> truth. most important is that momentum of 1st photon is such that it cannot impact Xreco since it is pointed DS (Pz>0) idnevt= 9847 kpnn.11999.41.before.sec2.rzn Xtrue= -9.7 0.0 1415.0 -202.8 -112.3 1403.5 Ptrue= 105.4 -7.3 61.2 43.1 3.4 -0.3 Xreco= -6.8 -16.8 1415.0 -211.1 -34.7 1403.5 Preco= 101.6 15.6 61.9 -40.9 -3.3 0.3 Ktrue= -22.4 0.5 1406.5 -13.3 0.2 805.9 Kreco= -27.6 -20.0 1402.3 -15.3 -11.1 778.4 idnevt= 9847 kpnn.11999.41.before.theta.phi.rzn Xtrue= -9.7 0.0 1415.0 -202.8 -112.3 1403.5 Ptrue= 105.4 -7.3 61.2 43.1 3.4 -0.3 Xreco= -6.8 -16.8 1415.0 -211.1 -34.7 1403.5 Preco= 101.6 15.6 61.9 40.9 3.3 -0.3 Ktrue= -22.4 0.5 1406.5 -13.3 0.2 805.9 Kreco= -27.6 -20.0 1402.3 -11.4 -8.3 579.4 original fit got photon momenta approximately correct, but positions were way off. strange thing is that recon Z of K is approx same as true, but momentum is quite different. must mean that time of K is quite from truth. add temp debug to recon.f Log file /e787u/djaffe/KOPIO/fastmc/scripts/../locallog/kpnn.11999.41.090904.1402.log XK YK ZK TK RECON: Initial K0Lpar= 12.08 -48.24 1414. 63.02 RECON: Initial K0Lres= 5.000 5.000 5.000 2.000 note that initial guess at Y(K) << beam envelope after 1st fit X(K) Z(K) T(K) FITPI0 1:ChiNoM= 4.448 XI= 192.1 1533. 47.94 FITPI0 1: DXI= 138.6 77.80 5.160 ITER=11 IERR= 0 F RECON: Final K0Lpar= 185.2 -.9856 1529. 48.19 RECON: Final K0Lres= 122.4 1.689 68.62 4.591 so forcing photons to come from YK=0 causes crazy result. more debug to check Log file /e787u/djaffe/KOPIO/fastmc/scripts/../locallog/kpnn.11999.41.090904.1411.log fix bug in debug output in recon from dima Log file /e787u/djaffe/KOPIO/fastmc/scripts/../locallog/kpnn.11999.41.090904.1417.log in this event beta calculated 2 ways does not agree because average time of intersection of photons is not the same as the fitted time. why? RECON: BetaX=0.1108 BetaY=-.5898E-03 BetaZ=0.9153 gamma= 2.582 Tave= 55.73 RECON:S(K)= 1540.4 T(K)= 48.194 s-c*t= 95.603 add more debug Log file /e787u/djaffe/KOPIO/fastmc/scripts/../locallog/kpnn.11999.41.090904.1443.log studied this kind of event a bit more, it is characterized by Z(K).ge.max(Zhit1,Zhit2) even when 1 hit is in PR, so they should be rejected anyway. decided to replace 'meet' parameters for x,y,z,t of K with results of second fit, also added another variable to ntuple: RecTK test Log file /e787u/djaffe/KOPIO/fastmc/scripts/../locallog/kpnn.11999.41.090904.1555.log source/initdecayit.f - modified "update BR(KL) using RPP 2004" check /e787u/djaffe/KOPIO/fastmc/scripts/../locallog/kpnn.11999.41.090904.1600.log remove temp debug stuff in recon Log file /e787u/djaffe/KOPIO/fastmc/scripts/../locallog/kpnn.11999.41.090904.1603.log test with kp2 events % run.fastmc.script kp2 2 10000 21999 0 4 1 detector.dat default.decay.dat 1.1 0 & Log file /e787u/djaffe/KOPIO/fastmc/scripts/../locallog/kp2.21999.41.090904.1604.log nan in one event, dima will look into it. **************************************** Fri Sep 10 09:03:43 EDT 2004 Dima can't find nan in his code. scripts/simple.run.fastmc.script - modified "executable is fastmc.exe" % cp /e787u/djaffe/KOPIO/fastmc/scripts/../condir/control.kp2.21999.41 findnan.control from log file *********** EVENT# 2000 Seed1= 21999 Seed2= 41 Nskip1= 172452 Nskip2= 0 ********** *** Track history. Event# 2196 TRANSFER2_1:cov mtx is nan ******* # ID Name Mom Px Py Pz E Ptot Xbirth Ybirth Zbirth Xdeath Ydeath Zdeath Tbirth Tdeath Weight Smeared Fate 1 8 K0L 0 -20.4 -1.1 704.7 862.9 705.0 -2.4 0.0 -2.6 -36.2 -1.8 1168.0 -0.1 47.7 0.105 0 1 DKD Decay vol -20.4 -1.1 704.7 862.9 at death 0.0 0.0 0.0 497.7 in K0L CMS 2 5 pi0 1 -30.9 -151.0 602.9 636.8 622.3 -36.2 -1.8 1168.0 -36.2 -1.8 1168.0 47.7 47.7 1.00 0 1 DKD Decay vol -30.9 -151.0 602.9 636.8 at death -17.6 -150.3 144.3 248.8 in K0L CMS 3 5 pi0 1 10.5 149.9 101.8 226.2 181.5 -36.2 -1.8 1168.0 -36.2 -1.8 1168.0 47.7 47.7 1.00 0 1 DKD Decay vol 10.5 149.9 101.8 226.2 at death 17.6 150.3 -144.3 248.8 in K0L CMS 4 1 gamm 3 53.0 134.9 98.0 174.9 174.9 -36.2 -1.8 1168.0 94.8 199.1 1382.7 47.7 58.2 1.00 2 2 Hit top Decay vol 53.0 134.9 98.0 174.9 at death 64.8 95.9 -40.6 122.6 in K0L CMS 5 1 gamm 3 69.1 19.5 -2.5 71.8 71.8 -36.2 -1.8 1168.0 -196.9 174.4 1168.0 47.7 55.6 1.00 2 2 Hit right Decay vol 69.1 19.5 -2.5 71.8 at death -47.2 54.4 -103.6 126.2 in K0L CMS 6 1 gamm 2 -42.3 11.1 187.5 192.5 192.5 -36.2 -1.8 1168.0 -83.4 15.2 1415.0 47.7 56.5 1.00 2 2 Hit DS end Calorim -42.3 11.1 187.5 192.5 at death -30.6 12.0 52.5 61.9 in K0L CMS 7 1 gamm 2 -2.3 -152.1 408.9 436.3 436.3 -36.2 -1.8 1168.0 -33.7 -97.4 1415.0 47.7 56.2 1.00 2 2 Hit DS end Calorim -2.3 -152.1 408.9 436.3 at death 13.0 -162.3 91.8 186.9 in K0L CMS ***** ERROR in HFNT bad float in column: 51 line: 1 : Quiet NaN : ID= 1 ***** ERROR in HFNT bad float in column: 51 line: 2 : Quiet NaN : ID= 1 ***** ERROR in HFNT bad float in column: 51 line: 4 : Quiet NaN : ID= 1 ***** ERROR in HFNT bad float in column: 51 line: 8 : Quiet NaN : ID= 1 ***** ERROR in HFNT bad float in column: 51 line: 9 : Quiet NaN : ID= 1 ***** ERROR in HFNT bad float in column: 51 line: 10 : Quiet NaN : ID= 1 ***** ERROR in HFNT bad float in column: 51 line: 21 : Quiet NaN : ID= 1 ***** ERROR in HFNT bad float in column: 51 line: 22 : Quiet NaN : ID= 1 ***** ERROR in HFNT bad float in column: 51 line: 24 : Quiet NaN : ID= 1 ***** ERROR in HFNT bad float in column: 51 line: 28 : Quiet NaN : ID= 1 ***** ERROR in HFNT bad float in column: 51 line: 29 : Quiet NaN : ID= 1 ***** ERROR in HFNT bad float in column: 51 line: 30 : Quiet NaN : ID= 1 % simple.run.fastmc.script findnan.control & Logfile name is /e787u/djaffe/KOPIO/fastmc/scripts/../log/fastmc.findnan.control.detector.dat.100904.0917.log get nskip of nan event Logfile name is /e787u/djaffe/KOPIO/fastmc/scripts/../log/fastmc.findnan.control.detector.dat.100904.0919.log Logfile name is /e787u/djaffe/KOPIO/fastmc/scripts/../log/fastmc.findnan.control.detector.dat.100904.1015.log STOP kinfun, Err-e1s,e2s statement executed source/kinfun.f - modified "change stop to warning" Logfile name is /e787u/djaffe/KOPIO/fastmc/scripts/../log/fastmc.findnan.control.detector.dat.100904.1022.log can't get nan with nskip of event, but can get it with nskip of 6 events previous. makes me think of stale variable somewhere... source/writemtx.f - modified "warn if correl mtx uncalculable" found the problem, diagonal element 13 of cov mtx from 2d fit is negative. this element corresponds to Txz of 2d photon here are the input values of the two photons: RECON:photon1= 174.9 58.19 94.78 199.1 1383. 0.5408 1.376 RECON:sigma1 = 10.54 0.2000 1.153 1.153 0.1000E-04 0.5188E-01 0.7207E-01 RECON:photon2= 71.81 55.61 -196.9 174.4 1168. -27.88 -7.865 RECON:sigma2 = 7.340 0.2000 1.655 1.655 0.1000E-04 0.2950E+08 0.3448E+08 found cases where candidate pi0 mass squared in cfun was <0, this gave cfun=nan (and ierr=1) from fit. source/cfun.f - modified "protect against mass^2<0" source/cfun_1g.f - modified "protect against mass^2<0" cfun_0g is already protected still do not understand why fitter returns negative value in diagonal of cov mtx. i note that sigma(Txz), sigma(Tyz) for this candidate are >> than other candidates from the 6 events included in the debugging Dima and I decide that fits with -ve diagonal elements in cov mtx should have ierr.ne.0 source/kinfit.f - modified "ierr=5 if diagonal(cov mtx)<0" source/fitpi0.f - modified "treat ierr=5 from kinfit" big test job: % run.fastmc.script kp2 2 10000 21998 0 4 1 detector.dat default.decay.dat 1.1 0 & Log file /e787u/djaffe/KOPIO/fastmc/scripts/../locallog/kp2.21998.41.100904.1518.log source/reconinfo.f - modified "change range of recierr from [-1,4] to [-1,7]" another test % run.fastmc.script kp2 2 10000 21997 0 4 1 detector.dat default.decay.dat 1.1 0 & Log file /e787u/djaffe/KOPIO/fastmc/scripts/../locallog/kp2.21997.41.100904.1523.log optionally gzip output ntuple file (now it is done automatically) source/control.f - modified "add GZIP_OUTPUT_FILE" source/event.inc - modified "add GZIP_OUTPUT_FILE" source/init.f - modified "add GZIP_OUTPUT_FILE" source/initanal.f - modified "initialize EXTENDED_TARGET, BEAM_COLLIMATION for analysis job" source/userend.f - modified "add GZIP_OUTPUT_FILE" Templates/control.template - modified "add GZIP_OUTPUT_FILE" test % run.fastmc.script kp2 2 1000 21996 0 4 1 detector.dat default.decay.dat 1.1 0 & Log file /e787u/djaffe/KOPIO/fastmc/scripts/../locallog/kp2.21996.41.100904.1548.log Ntuple/hist file ../localntuples/kp2.21996.41.rzn --------------------------- STOP INIT ERROR: No filename given for ntuple id statement executed bad line in template file. fix it, try again Log file /e787u/djaffe/KOPIO/fastmc/scripts/../locallog/kp2.21996.41.100904.1550.log test with 0,1,2 g fits all enabled: % run.fastmc.script kp2 2 1000 21995 0 4 1 detector.dat default.decay.dat 1.1 0 & all looks ok re-run longer job with 2gPR fits only % run.fastmc.script kp2 2 10000 21998 0 4 1 detector.dat default.decay.dat 1.1 0 & Log file /e787u/djaffe/KOPIO/fastmc/scripts/../locallog/kp2.21998.41.100904.1604.log lets make sure these data can still be analyzed % echo ../localntuples/kp2.21998.41.rzn | sed -e s/local// > test.list % analysis.script test.list ../geometry/detector.22.dat & Log file /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.test.100904.1618.log OK run standard bunch of jobs with offset =121 % submit.standard.bunch.of.jobs.script detector.22.dat key 10 logfile is ../log/standard.bunch.of.jobs.detector.22.dat.10.100904.1621.log must re-check all 'to do's in this file... Fri Sep 10 17:14:26 EDT 2004 ************************************ Sun Sep 12 19:55:07 EDT 2004 /home disk got filled kp2 jobs are too long, ntuple is too large? fix tomorrow ************************************************************** Mon Sep 13 08:57:05 EDT 2004 log files with ERROR: /e787u/djaffe/KOPIO/fastmc/scripts/../locallog/kp3.51121.41.100904.1622.log: E*2<0 in one event, nan in cov mtx in another /e787u/djaffe/KOPIO/fastmc/scripts/../locallog/kp3.51123.41.110904.0051.log: /home disk full /e787u/djaffe/KOPIO/fastmc/scripts/../locallog/kp2.21124.41.110904.0144.log E*2<0 /home disk full /e787u/djaffe/KOPIO/fastmc/scripts/../locallog/ke3g.91123.141.110904.0233.log /home disk full % rm -f ../localntuples/kp3.51123.41.rzn.ntskim ../localntuples/kp2.21124.41.rzn.ntskim ../localntuples/ke3g.91123.141.rzn.ntskim % cp aspect1.bryman.list aspect1.bryman.list.before.cov.matrices make new aspect1.bryman.list from successfully completed jobs % analysis.script aspect1.bryman.list ../geometry/detector.22.dat & List of ntuples 1150 Sep 13 09:00 aspect1.bryman.list with 32 ntuples files Log file /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.aspect1.bryman.130904.0901.log analysis job crashed. ran out of space gzip: ../ntuples/kp3.51122.41.rzn.ntskim.gz: No space left on device gunzip: ../ntuples/kp3.51121.41.rzn.ntskim: No space left on device STOP ANAL: UNZIP ERROR statement executed move bunch of files % df /home /u1 ; mover ; df /home /u1 Filesystem 1k-blocks Used Available Use% Mounted on /dev/sda4 30637428 28574724 506408 99% /home /dev/sdb2 35550516 29593452 5957064 84% /u1 Filesystem 1k-blocks Used Available Use% Mounted on /dev/sda4 30637428 23132116 5949016 80% /home /dev/sdb2 35550516 34884008 666508 99% /u1 that was close! try again analysis.script aspect1.bryman.list ../geometry/detector.22.dat & List of ntuples 1150 Sep 13 09:00 aspect1.bryman.list with 32 ntuples files Log file /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.aspect1.bryman.130904.0948.log here are all the warnings /e787u/djaffe/KOPIO/fastmc/scripts/../locallog/kp2.21121.41.100904.1622.log: KINFUN WARNING:(E*1+E*2)^2-(E*1-E*2)^2=-0.33641E+07 is <0. E*1+E*2= 2405.7 E*1-E*2= -3025.1 E*1= -309.73 E*2= 2715.4 /e787u/djaffe/KOPIO/fastmc/scripts/../locallog/kp3.51121.41.100904.1622.log: KINFUN WARNING:(E*1+E*2)^2-(E*1-E*2)^2=-0.19803E+06 is <0. E*1+E*2= 112.34 E*1-E*2= 458.97 E*1= 285.65 E*2= -173.32 /e787u/djaffe/KOPIO/fastmc/scripts/../locallog/kp3.51121.41.100904.1622.log: TRANSFER2_1 WARNING: RECCOV1( 1, 2) is NAN /e787u/djaffe/KOPIO/fastmc/scripts/../locallog/kp3.51121.41.100904.1622.log: TRANSFER2_1 WARNING: RECCOV1( 2, 2) is NAN /e787u/djaffe/KOPIO/fastmc/scripts/../locallog/kp3.51121.41.100904.1622.log: TRANSFER2_1 WARNING: RECCOV1( 4, 2) is NAN /e787u/djaffe/KOPIO/fastmc/scripts/../locallog/kp3.51121.41.100904.1622.log: TRANSFER2_1 WARNING: RECCOV1( 8, 2) is NAN /e787u/djaffe/KOPIO/fastmc/scripts/../locallog/kp3.51121.41.100904.1622.log: TRANSFER2_1 WARNING: RECCOV1( 9, 2) is NAN /e787u/djaffe/KOPIO/fastmc/scripts/../locallog/kp3.51121.41.100904.1622.log: TRANSFER2_1 WARNING: RECCOV1(10, 2) is NAN /e787u/djaffe/KOPIO/fastmc/scripts/../locallog/kp3.51121.41.100904.1622.log: TRANSFER2_1 WARNING: RECCOV1( 1, 2) is NAN /e787u/djaffe/KOPIO/fastmc/scripts/../locallog/kp3.51121.41.100904.1622.log: TRANSFER2_1 WARNING: RECCOV1( 2, 2) is NAN /e787u/djaffe/KOPIO/fastmc/scripts/../locallog/kp3.51121.41.100904.1622.log: TRANSFER2_1 WARNING: RECCOV1( 4, 2) is NAN /e787u/djaffe/KOPIO/fastmc/scripts/../locallog/kp3.51121.41.100904.1622.log: TRANSFER2_1 WARNING: RECCOV1( 8, 2) is NAN /e787u/djaffe/KOPIO/fastmc/scripts/../locallog/kp3.51121.41.100904.1622.log: TRANSFER2_1 WARNING: RECCOV1( 9, 2) is NAN /e787u/djaffe/KOPIO/fastmc/scripts/../locallog/kp3.51121.41.100904.1622.log: TRANSFER2_1 WARNING: RECCOV1(10, 2) is NAN /e787u/djaffe/KOPIO/fastmc/scripts/../locallog/ke4.121122.41.100904.1659.log: TRANSFER2_1 WARNING: RECCOV1( 7, 1) is NAN /e787u/djaffe/KOPIO/fastmc/scripts/../locallog/ke4.121122.41.100904.1659.log: TRANSFER2_1 WARNING: RECCOV1( 8, 1) is NAN /e787u/djaffe/KOPIO/fastmc/scripts/../locallog/ke4.121122.41.100904.1659.log: TRANSFER2_1 WARNING: RECCOV1( 9, 1) is NAN /e787u/djaffe/KOPIO/fastmc/scripts/../locallog/ke4.121122.41.100904.1659.log: TRANSFER2_1 WARNING: RECCOV1(10, 1) is NAN /e787u/djaffe/KOPIO/fastmc/scripts/../locallog/kcp3.61123.41.100904.1719.log: KINFUN WARNING:(E*1+E*2)^2-(E*1-E*2)^2= -3898.7 is <0. E*1+E*2= 146.41 E*1-E*2= 159.17 E*1= 152.79 E*2= -6.3791 /e787u/djaffe/KOPIO/fastmc/scripts/../locallog/ke4.121126.41.100904.1940.log: KINFUN WARNING:(E*1+E*2)^2-(E*1-E*2)^2= -25592. is <0. E*1+E*2= 187.90 E*1-E*2= 246.77 E*1= 217.34 E*2= -29.438 /e787u/djaffe/KOPIO/fastmc/scripts/../locallog/kp3.51122.41.100904.2203.log: KINFUN WARNING:(E*1+E*2)^2-(E*1-E*2)^2= -4420.4 is <0. E*1+E*2= 14.097 E*1-E*2= 67.964 E*1= 41.031 E*2= -26.933 /e787u/djaffe/KOPIO/fastmc/scripts/../locallog/kp3.51122.41.100904.2203.log: KINFUN WARNING:(E*1+E*2)^2-(E*1-E*2)^2= -16935. is <0. E*1+E*2= 62.897 E*1-E*2= 144.54 E*1= 103.72 E*2= -40.819 /e787u/djaffe/KOPIO/fastmc/scripts/../locallog/kp3.51122.41.100904.2203.log: KINFUN WARNING:(E*1+E*2)^2-(E*1-E*2)^2= -21951. is <0. E*1+E*2= 114.49 E*1-E*2= -187.24 E*1= -36.375 E*2= 150.86 /e787u/djaffe/KOPIO/fastmc/scripts/../locallog/kp3.51122.41.100904.2203.log: KINFUN WARNING:(E*1+E*2)^2-(E*1-E*2)^2=-0.14184E+06 is <0. E*1+E*2= 148.46 E*1-E*2= -404.82 E*1= -128.18 E*2= 276.64 /e787u/djaffe/KOPIO/fastmc/scripts/../locallog/kp3.51122.41.100904.2203.log: KINFUN WARNING:(E*1+E*2)^2-(E*1-E*2)^2=-0.22743E+06 is <0. E*1+E*2= 59.841 E*1-E*2= 480.63 E*1= 270.24 E*2= -210.39 /e787u/djaffe/KOPIO/fastmc/scripts/../locallog/kp2.21123.41.100904.2334.log: KINFUN WARNING:(E*1+E*2)^2-(E*1-E*2)^2=-0.25377E+06 is <0. E*1+E*2= 48.034 E*1-E*2= 506.04 E*1= 277.04 E*2= -229.00 /e787u/djaffe/KOPIO/fastmc/scripts/../locallog/kp2.21123.41.100904.2334.log: KINFUN WARNING:(E*1+E*2)^2-(E*1-E*2)^2= -12022. is <0. E*1+E*2= -148.06 E*1-E*2= 184.24 E*1= 18.089 E*2= -166.15 /e787u/djaffe/KOPIO/fastmc/scripts/../locallog/kp2.21124.41.110904.0144.log: KINFUN WARNING:(E*1+E*2)^2-(E*1-E*2)^2= -6932.7 is <0. E*1+E*2= 141.90 E*1-E*2= 164.52 E*1= 153.21 E*2= -11.313 in ke4 job: control file /e787u/djaffe/KOPIO/fastmc/scripts/../condir/control.ke4.121122.41 due to photons in barrel *********** EVENT# 63000 Seed1= 27135 Seed2= 41 Nskip1= 101136835 Nskip2= 0 ********** +++++++++ 26000 events skimmed so far +++++++ TRANSFER2_1 WARNING: RECCOV1( 7, 1) is NAN TRANSFER2_1 WARNING: RECCOV1( 8, 1) is NAN TRANSFER2_1 WARNING: RECCOV1( 9, 1) is NAN TRANSFER2_1 WARNING: RECCOV1(10, 1) is NAN *** Track history. Event# 63285 TRANSFER2_1:cov mtx is nan ******* # ID Name Mom Px Py Pz E Ptot Xbirth Ybirth Zbirth Xdeath Ydeath Zdeath Tbirth Tdeath Weight Smeared Fate 1 8 K0L 0 -19.2 0.0 660.0 826.9 660.3 2.6 0.0 2.8 -31.1 0.0 1158.8 0.1 48.4 0.108 0 1 DKD Decay vol -19.2 0.0 660.0 826.9 at death 0.0 0.0 0.0 497.7 in K0L CMS 2 5 pi0 1 -23.0 -143.0 143.1 244.3 203.6 -31.1 0.0 1158.8 -31.1 0.0 1158.8 48.4 48.4 1.00 0 1 DKD Decay vol -23.0 -143.0 143.1 244.3 at death -16.3 -143.0 -85.9 215.2 in K0L CMS 3 6 pi+ 1 53.4 84.8 261.4 312.8 280.0 -31.1 0.0 1158.8 21.3 83.1 1415.0 48.4 58.7 1.00 0 2 Hit DS end Pre-Rad 53.4 84.8 261.4 312.8 at death 60.5 84.8 18.2 175.1 in K0L CMS 4 3 e- 1 -39.2 45.3 130.2 143.3 143.3 -31.1 0.0 1158.8 -162.4 151.7 1595.0 48.4 64.4 1.00 0 2 Hit DS end Calorim -39.2 45.3 130.2 143.3 at death -36.2 45.3 26.9 63.9 in K0L CMS 5 2 nu 1 -10.5 12.9 125.4 126.5 126.5 -31.1 0.0 1158.8 -67.6 44.9 1595.0 48.4 63.1 1.00 0 2 Hit DS end Calorim -10.5 12.9 125.4 126.5 at death -8.0 12.9 40.7 43.4 in K0L CMS 6 1 gamm 2 -35.8 -168.5 133.5 217.9 217.9 -31.1 0.0 1158.8 -64.2 -200.5 1331.5 48.4 57.2 1.00 2 2 Hit bottom Decay vol -35.8 -168.5 133.5 217.9 at death -22.8 -165.8 -54.7 176.0 in K0L CMS 7 1 gamm 2 17.3 -13.5 -4.3 22.4 22.4 -31.1 0.0 1158.8 15.7 196.3 1158.8 48.4 55.2 1.00 2 2 Hit top Decay vol 17.3 -13.5 -4.3 22.4 at death 6.5 22.8 -31.2 39.2 in K0L CMS investigate % cp /e787u/djaffe/KOPIO/fastmc/scripts/../condir/control.ke4.121122.41 findnan.control simple.run.fastmc.script findnan.control Logfile name is /e787u/djaffe/KOPIO/fastmc/scripts/../log/fastmc.findnan.control.detector.dat.130904.0910.log >>>>>>>>>>>>>>>>>>>>> add protection to get_pr_resolution to avoid -ve sigmas here is problem with nan: RECON:fcov in packed form: 89.75 133.20 194.43 -53.16 -84.07 192.58 0.26 3.33 4.55 -2.67 RECON:RecCov1 in packed form: Nrecon= 1 9.47 1.01 13.94 -0.40 -0.43 13.88 nan nan nan nan RECON:RecCov1 in packed form, 1: Nrecon= 1 9.47 1.01 13.94 -0.40 -0.43 13.88 nan nan nan nan kinfun(x,i) check ================== i kinfun(x,i) "true value" description 1 40.8790162 133.519852 Mgg 2 221.939096 226.282196 E*pi 3 149.224208 144.881104 E*1 - E*2 4 599.296083 599.296143 Emiss 5 677.279108 677.279175 P(K) 6 164.28359 173.819138 H=(E*pi)^2 - (E*1-E*2)^2 10 -32.2259793 -32.2259827 Px*1 several mismatches in kinfun check: Mgg, E*pi, dE*, H ************************************************************** Tue Sep 14 08:44:35 EDT 2004 Dima figured out the problem above. kinfun did not correctly resolve the ambiguity in the direction of the photon. I fixed it scripts/submit.standard.bunch.of.jobs.scripts - modified "40 kp2 jobs of 100k evts" clean up disks, remove all 2001, 2002, 2003 ntuples make detector.22.dat the default: geometry/detector.dat - modified "copy of detector.22.dat" % submit.standard.bunch.of.jobs.script submit.standard.bunch.of.jobs.script detector.22.dat key 10 logfile is ../log/standard.bunch.of.jobs.detector.22.dat.10.140904.0950.log ************************************* Wed Sep 15 08:36:14 EDT 2004 warnings and errors found in latest standard bunch: /e787u/djaffe/KOPIO/fastmc/scripts/../locallog/kpgg.111131.41.140904.0950.log: ***** ERROR in HFNT bad float in column: 51 line: 11 : Quiet NaN : ID= 1 /e787u/djaffe/KOPIO/fastmc/scripts/../locallog/kp2.21145.41.150904.0134.log: ***** ERROR in HFNT bad float in column: 51 line: 17 : Quiet NaN : ID= 1 /e787u/djaffe/KOPIO/fastmc/scripts/../locallog/ke4.121134.41.140904.1132.log: TRANSFER2_1 WARNING: RECCOV1( 1, 1) is NAN /e787u/djaffe/KOPIO/fastmc/scripts/../locallog/kcp3.61134.41.140904.1105.log: KINFUN WARNING:(E*1+E*2)^2-(E*1-E*2)^2= -8508.7 is <0. E*1+E*2= 67.403 E*1-E*2= 114.24 E*1= 90.824 E*2= -23.421 in file /e787u/djaffe/KOPIO/fastmc/scripts/../locallog/ke4.121134.41.140904.1132.log *********** EVENT# 70000 Seed1= 27147 Seed2= 41 Nskip1= 112641310 Nskip2= 0 ********** KINERPROPG -VE DIAG COV: ir=ic= 1k,a(k,ir)= 1 0.71660935 2 0. 3 0. 4 0. 5 0. 6 11.1190815 7 -62.9003026 8 2.21496208 9 0. 10 0. 11 0. 12 0. 13 -1.92522691 14 1.35784148 15 0.0331283445 16 0.0161591629 17 0.421245261 18 -10.9108427 KINERPROPG -VE DIAG COV: ir=ic= 2k,a(k,ir)= 1 0.716610771 2 0. 3 0. 4 0. 5 0. 6 11.1190829 7 -62.9003011 8 -2.21496492 9 0. 10 0. 11 0. 12 0. 13 1.92522691 14 -1.35784219 15 0.168088832 16 -0.0499895236 17 -0.269345435 18 6.92053632 KINERPROPG -VE DIAG COV: ir=ic= 4k,a(k,ir)= 1 0.950991819 2 0. 3 0. 4 0. 5 0. 6 14.7557628 7 -83.4728908 8 1.66906773 9 0. 10 0. 11 0. 12 0. 13 -1.45073926 14 1.02319149 15 0.0826645419 16 0.00247410981 17 0.360986974 18 -9.36604465 TRANSFER2_1 WARNING: RECCOV1( 1, 1) is NAN TRANSFER2_1 WARNING: RECCOV1( 3, 1) is NAN TRANSFER2_1 WARNING: RECCOV1( 4, 1) is NAN TRANSFER2_1 WARNING: RECCOV1( 5, 1) is NAN TRANSFER2_1 WARNING: RECCOV1( 9, 1) is NAN TRANSFER2_1 WARNING: RECCOV1(10, 1) is NAN *** Track history. Event# 70802 TRANSFER2_1:cov mtx is nan ******* # ID Name Mom Px Py Pz E Ptot Xbirth Ybirth Zbirth Xdeath Ydeath Zdeath Tbirth Tdeath Weight Smeared Fate 1 8 K0L 0 -24.7 -1.7 828.7 967.0 829.1 -2.9 0.0 -3.1 -35.6 -2.2 1095.7 -0.1 42.6 0.968E-01 0 1 DKD Decay vol -24.7 -1.7 828.7 967.0 at death 0.0 0.0 0.0 497.7 in K0L CMS 2 5 pi0 1 -52.3 -5.9 74.0 162.7 90.8 -35.6 -2.2 1095.7 -35.6 -2.2 1095.7 42.6 42.6 1.00 0 1 DKD Decay vol -52.3 -5.9 74.0 162.7 at death -46.4 -5.5 -125.7 190.3 in K0L CMS 3 6 pi- 1 -23.3 10.7 417.7 441.2 418.5 -35.6 -2.2 1095.7 -51.4 5.0 1378.6 42.6 52.6 1.00 0 1 DKD Decay vol -23.3 10.7 417.7 441.2 at death -13.2 11.4 77.3 160.5 in K0L CMS 4 3 e+ 1 -0.9 -7.0 -10.0 12.3 12.3 -35.6 -2.2 1095.7 -42.5 -58.5 1015.0 42.6 45.9 1.00 0 2 Hit US end Decay vol -0.9 -7.0 -10.0 12.3 at death 0.0 -6.9 -39.9 40.5 in K0L CMS 5 2 nu 1 51.8 0.5 347.1 350.9 350.9 -35.6 -2.2 1095.7 200.0 0.1 2674.9 42.6 95.9 1.00 0 2 Hit left CatchrVol 51.8 0.5 347.1 350.9 at death 59.5 1.0 88.3 106.5 in K0L CMS 6 4 mu- 3 -27.4 -18.4 297.6 317.5 299.4 -51.4 5.0 1378.6 -133.5 -50.0 2269.5 52.6 84.3 1.00 0 2 Hit bottom CatchrVol -27.4 -18.4 297.6 317.5 at death -20.0 -17.9 50.0 120.0 in K0L CMS 7 2 nu 3 4.1 29.0 120.2 123.7 123.7 -51.4 5.0 1378.6 -44.0 57.3 1595.0 52.6 60.0 1.00 0 2 Hit DS end Calorim 4.1 29.0 120.2 123.7 at death 6.9 29.2 27.2 40.5 in K0L CMS 8 1 gamm 2 6.5 -66.3 81.9 105.6 105.6 -35.6 -2.2 1095.7 -53.6 -202.4 1354.8 42.6 53.5 1.00 2 2 Hit bottom Decay vol 6.5 -66.3 81.9 105.6 at death -2.2 -56.3 -11.3 57.5 in K0L CMS 9 1 gamm 2 61.0 -24.1 -2.0 65.6 65.6 -35.6 -2.2 1095.7 -201.2 173.8 1095.7 42.6 51.1 1.00 2 2 Hit right Decay vol 61.0 -24.1 -2.0 65.6 at death -44.2 50.9 -114.4 132.8 in K0L CMS % cp /e787u/djaffe/KOPIO/fastmc/scripts/../condir/control.ke4.121134.41 findnan.control oops ke4.121134.41.rzn.ntskim is now junked! in this event, 2d photon is very close to 90deg so uncertainties on Txz,Tyz are ~1e8. the covariance matrix from both the first and 2d fit has unphysical values in off-diagonal elements. it shows up obviously in off-diagonal elements of the correlation matrix that are >1 ! solutions: 1) limit uncertainty on Txz, Tyz to ~10 times their magnitude? 2) assign ierr=6 when off-diagonal element (i,j) of error matrix are > sqrt(cov(i,i)*cov(j,j))? Dima and I agree that 2) is probably more robust. study E*2 < 0 problem: % cp /e787u/djaffe/KOPIO/fastmc/scripts/../condir/control.kcp3.61134.41 findnan.control *********** EVENT# 379 Seed1= 29805 Seed2= 41 Nskip1= 37338 Nskip2= 0 ********** KINFUN WARNING:(E*1+E*2)^2-(E*1-E*2)^2= -8508.7 is <0. E*1+E*2= 67.403 E*1-E*2= 114.24 E*1= 90.824 E*2= -23.421 K problem is that energy of E2 in lab is negative Kill submit.many.fastmc jobs still running for kp2 and ke3g source/recon.f - modified "discard fits with negative fitted photon energy" source/kinfit.f - modified "ierr=6 if |correlation mtx element| > 1" source/fitpi0.f - modified "handle ierr=6" check if signal acceptance is unchanged after all these mods: this job will replace first job from standard bunch % run.fastmc.script kpnn 1 100000 11131 0 4 1 detector.22.dat default.decay.dat 1.1 1 & Log file /e787u/djaffe/KOPIO/fastmc/scripts/../locallog/kpnn.11131.41.150904.1626.log % echo ../ntuples/kpnn.11131.41.rzn.ntskim > test.list % analysis.script test.list ../geometry/detector.22.dat & Log file /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.test.150904.1635.log Times(s): Spill= 2.400 Interspill= 2.300 Running time=0.4320E+08 Running time(hrs)=0.1200E+05 Using Br(K0L -> pi0,nu,nubar) = 0.3000E-10 Total N(K0L) after spoiler=0.1271E+16 Total neutron interactions=-1.000 Mode Generated Effy(wt) N/N(Kpnn) Nev(mode) dNeV(mode) Who kpnn 0.1000E+06 0.6535E-03 1.000 24.91 0.7519 MZ kpnn 0.1000E+06 0.2917E-02 1.000 111.2 1.531 DJ kpnn 0.1000E+06 0.2507E-02 1.000 95.58 1.445 AK basic kpnn 0.1000E+06 0.1630E-02 1.000 62.15 1.168 AK loose kpnn 0.1000E+06 0.1435E-02 1.000 54.71 1.097 AK lominal kpnn 0.1000E+06 0.9915E-03 1.000 37.80 0.9142 AK tight kpnn 0.1000E+06 0.6608E-03 1.000 25.19 0.7463 AK tighter kpnn 0.1000E+06 0.5638E-03 1.000 21.49 0.6893 AK tightest hmmm. that is 2.7sigma from previous. maybe more stats will help? 2 more jobs Log file /e787u/djaffe/KOPIO/fastmc/scripts/../locallog/kpnn.11132.41.150904.1719.log Log file /e787u/djaffe/KOPIO/fastmc/scripts/../locallog/kpnn.11133.41.150904.1719.log add to test.list : Log file /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.test.150904.2050.log Mode Generated Effy(wt) N/N(Kpnn) Nev(mode) dNeV(mode) Who kpnn 0.3000E+06 0.6541E-03 1.000 24.94 0.4328 MZ kpnn 0.3000E+06 0.2948E-02 1.000 112.4 0.8881 DJ kpnn 0.3000E+06 0.2540E-02 1.000 96.82 0.8400 AK basic kpnn 0.3000E+06 0.1666E-02 1.000 63.53 0.6819 AK loose kpnn 0.3000E+06 0.1470E-02 1.000 56.02 0.6411 AK lominal kpnn 0.3000E+06 0.1003E-02 1.000 38.24 0.5299 AK tight kpnn 0.3000E+06 0.6560E-03 1.000 25.01 0.4293 AK tighter kpnn 0.3000E+06 0.5580E-03 1.000 21.27 0.3961 AK tightest (115.5-112.4)/sqrt(.45^2+.888^2) = 3.1/.9955=3.1sigma significant effect? perhaps correlation matrix requirement should be post fit? ********************************* Thu Sep 16 09:06:37 EDT 2004 source/checkmtx.f - new "check validity of doubprec cov mtx" source/Makefile - modified "add checkmtx" backup of ntuple % cp ../ntuples/kpnn.11131.41.rzn.ntskim.gz ../ntuples/kpnn.11131.41.rzn.ntskim.copy.gz replace ntuple % run.fastmc.script kpnn 1 100000 11131 0 4 1 detector.22.dat default.decay.dat 1.1 1 & Log file /e787u/djaffe/KOPIO/fastmc/scripts/../locallog/kpnn.11131.41.160904.0925.log output ntuples are different! % ls -lrt ../ntuples/kpnn.11131.41.rzn.ntskim.gz ../ntuples/kpnn.11131.41.rzn.ntskim.copy.gz -rw-r--r-- 1 djaffe djaffe 26863343 Sep 16 09:25 ../ntuples/kpnn.11131.41.rzn.ntskim.copy.gz -rw-r--r-- 1 djaffe djaffe 26863917 Sep 16 09:32 ../ntuples/kpnn.11131.41.rzn.ntskim.gz % echo ../ntuples/kpnn.11131.41.rzn.ntskim > test.list % analysis.script test.list ../geometry/detector.22.dat & Log file /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.test.160904.0946.log Mode Generated Effy(wt) N/N(Kpnn) Nev(mode) dNeV(mode) Who kpnn 0.1000E+06 0.6535E-03 1.000 24.91 0.7519 MZ kpnn 0.1000E+06 0.2917E-02 1.000 111.2 1.531 DJ kpnn 0.1000E+06 0.2507E-02 1.000 95.58 1.445 AK basic kpnn 0.1000E+06 0.1630E-02 1.000 62.15 1.168 AK loose kpnn 0.1000E+06 0.1435E-02 1.000 54.71 1.097 AK lominal kpnn 0.1000E+06 0.9915E-03 1.000 37.80 0.9142 AK tight kpnn 0.1000E+06 0.6608E-03 1.000 25.19 0.7463 AK tighter kpnn 0.1000E+06 0.5638E-03 1.000 21.49 0.6893 AK tightest results are identical to /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.test.150904.1635.log review all changes between /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.kpnn.ke4.ke3g.kcp3.aspect1.bryman.300804.1643.log and /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.test.150904.1635.log loss apparently due to correction to resolution on sxz,syz test by running standard bunch of jobs. don't change offset, just replace previously produced files. % submit.standard.bunch.of.jobs.script submit.standard.bunch.of.jobs.script detector.22.dat key 10 logfile is ../log/standard.bunch.of.jobs.detector.22.dat.10.160904.1031.log check for problems in standard bunch of jobs: % grep log ../log/standard.bunch.of.jobs.detector.22.dat.10.160904.1031.log | grep scrip | awk '{print "grep -HE XDiscard|WARN|ERRX",$3}' | sed -e y/"X"/"'"/ > find.warning only "Discarded ludicrous fit." messages found George's 16sept04 proposal to Task force for PV ineffy: So, proposed recipe for now: Egamma>20 MeV AvdS curve with 10 MeV cutoff Egamma<20 MeV "standard PV ineffy" The two parametrizations give the same veto ineffy at 22.78 MeV instead of 20 MeV so use this point so that there is a smooth transition. source/flags.inc - modified "add UseTaskForcePV1" source/setupanal.f - modified "add UseTaskForcePV1" source/pvn.f - modified "add UseTaskForcePV1" source/gettrkweight.f - modified "add UseTaskForcePV1" source/initanal.f - modified "add UseTaskForcePV1" source/usveto.f - modified "add UseTaskForcePV1" test % analysis.script test.list ../geometry/detector.22.dat & /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.test.160904.1345.log seg fault! forgot to delete all objects. try again, recompile,link: Log file /e787u/djaffe/KOPIO/fastmc/scripts/../log/anal.test.160904.1349.log OK prepare to update CVS ######################### sizes -rwxrwxr-x 1 djaffe djaffe 1529285 Sep 16 09:23 ../exe/fastmc.exe -rwxrwxr-x 1 djaffe djaffe 1389550 Sep 16 14:28 ../exe/anal.exe ##################### new files from % grep "\- new" ../../Managefastmc/v1_4.notes | sort DataBase/catcher.ineffy.thres1.4pe.thres2.2pe.100-1000mev.dat - new "catcher ineffy files" DataBase/catcher.ineffy.thres1.4pe.thres2.2pe.10-100mev.dat - new "catcher ineffy files" DataBase/catcher.ineffy.thres1.4pe.thres2.2pe.1-10mev.dat - new "catcher ineffy files" DataBase/catcher.ineffy.thres1.4pe.thres2.2pe.dat - new "catcher ineffy from H.Morii" DataBase/catcher.ineffy.thres1.4pe.thres2.3pe.dat - new "catcher ineffy from H.Morii" DataBase/catcher.ineffy.thres1.6pe.thres2.2pe.dat - new "catcher ineffy from H.Morii" DataBase/catcher.ineffy.thres1.6pe.thres2.3pe.dat - new "catcher ineffy from H.Morii" geometry/detector.22.dat - new "change catcher detector from 200x10 to 150x15 (XxY cm)" scripts/default.decay.dat.old - new "copy of default.decay.dat before PDG2004" source/catchedep.f - new "new E-dependent catcher ineffys" source/checkmtx.f - new "check validity of doubprec cov mtx" source/fitpi0.inc - new "Dima's additions for new ntuple variables" source/getcpvetogate.f - new "calculate Mnu2-dependent CPVeto gate width" source/gethittime.f - new "fill CVHitTime" source/hitinfo.inc - new "info on where photon 'converted'" source/kineraid.f - new "Dima's additions for new ntuple variables" source/kinerpropg.f - new "Dima's additions for new ntuple variables" source/kinfun.f - new "Dima's additions for new ntuple variables" ################# modified files from % grep "\- modified" ../../Managefastmc/v1_4.notes | sort > x.x geometry/detector.dat - modified "copy of detector.22.dat" pve787.kumac - modified "add more plot options" scripts/default.decay.dat - modified "updated with PDG2004" scripts/simple.run.fastmc.script - modified "executable is fastmc.exe" scripts/simple.run.fastmc.script - modified ">>>>>>>>>>>>>>>>TEMPORARILY CHANGE NAME OF EXECUTABLE<<<<<<<<<<<<<<<" scripts/submit.standard.bunch.of.jobs.script - modified "add chargeonly option" scripts/submit.standard.bunch.of.jobs.script - modified "change njob to 30 for ke3g" scripts/submit.standard.bunch.of.jobs.script - modified "increase # of ke3g jobs" scripts/submit.standard.bunch.of.jobs.scripts - modified "40 kp2 jobs of 100k evts" source/akira.offline.f - modified "add RemovePKcut for AK cuts" source/akira.offline.f - modified "add RemoveUpperPKcut for AK cuts" source/anal.f - modified "add warning if Nevent>MaxEvent" source/anal.f - modified "reduce hiwtdump for kp2" source/anal.f - modified "remove calls to s/r particleid" source/anal.f - modified "set HiWtDump=1e-6 for ke3g" source/anal.f - modified "turn off all allbut1 hists" source/analvar.f - modified "add Mnu2(Nrecon)" source/analvar.inc - modified "add CVHitTime, VE(itk) -> VE(itk,irec)" source/beam_collimator.f - modified "remove smear.inc" source/bookanal.f - modified "add kp2 hists" source/bookanal.f - modified "add PK vs Thit plot" source/bookanal.f - modified "remove unused hists" source/bookanal.f - modified "set titles accding to UseBetaMax" source/cfun_0g.f - modified "resolve Txz,Tyz ambiguity" source/cfun_1g.f - modified "protect against mass^2<0" source/cfun_1g.f - modified "resolve Txz,Tyz ambiguity" source/cfun.f - modified "protect against mass^2<0" source/cfun.f - modified "resolve sign ambiguity in Txz,Tyz using z(hit),z(k)" source/control.f - modified "add GZIP_OUTPUT_FILE" source/detector.f - modified "report size of catcher detector" source/event.inc - modified "add GZIP_OUTPUT_FILE" source/fillanal.f - modified "add PK vs Thit plot" source/fillanal.f - modified "fill kp2 hists" source/fillanal.f - modified "remove unused hists" source/fillanal.f - modified "use CVHitTime from common" source/fillanal.f - modified "use Mnu2 from common" source/fitpi0.f - modified "Dima's mods for new ntuple variables and some fixes" source/fitpi0.f - modified "handle ierr=6" source/fitpi0.f - modified "TEMPORARY Look for NAN" source/fitpi0.f - modified "treat ierr=5 from kinfit" source/flags.inc - modified "add CatcherModel" source/flags.inc - modified "add CPVetoGate" source/flags.inc - modified "add IgnoreDIF" source/flags.inc - modified "add RemovePKcut" source/flags.inc - modified "add RemoveUpperPKcut" source/flags.inc - modified "add UseBetaMax" source/flags.inc - modified "add UseTaskForcePV1" source/getcandwt.f - modified "add IgnoreDIF" source/getcandwt.f - modified "adjust veto ineffy to take into account CPVetoGate" source/getcandwt.f - modified "calculate Mnu2(Nrecon), add UseMnu2depCPVgate" source/getcandwt.f - modified "disable PVboost for annih e+ from ke3g" source/getcandwt.f - modified "modify debug output" source/gethittime.f - modified "add UseBetaMax" source/get_pr_resolution.f - modified "Dima's mods for new ntuple variables and some fixes" source/gettrkweight.f - modified "add CatcherModel for E-dependent catcher ineffys" source/gettrkweight.f - modified "add IgnoreDIF" source/gettrkweight.f - modified "add UseTaskForcePV1" source/gettrkweight.f - modified "disable PVboost for annih e+ from ke3g" source/gettrkweight.f - modified "non-anni e+ no longer has mu+ ineffy, add argument CPVineffy" source/initanal.f - modified "add CatcherModel for E-dependent catcher ineffys" source/initanal.f - modified "add UseTaskForcePV1" source/initanal.f - modified "initialize EXTENDED_TARGET, BEAM_COLLIMATION for analysis job" source/initdecayit.f - modified "update BR(KL) using RPP 2004" source/init.f - modified "add GZIP_OUTPUT_FILE" source/inside.f - modified "try to avoid confusing optimization" source/kinfit.f - modified "ierr=5 if diagonal(cov mtx)<0" source/kinfit.f - modified "ierr=6 if |correlation mtx element| > 1" source/kinfun.f - modified "change stop to warning" source/Makefile.anal - modified "add catchedep" source/Makefile.anal - modified "add getcpvetogate" source/Makefile.anal - modified "add gethittime, remove particleid" source/Makefile - modified "add checkmtx" source/Makefile - modified "add kinfun kinerpropg kineraid from Dima" source/Makefile - modified "output is ../exe/fastmc.exe" source/Makefile - modified ">>>>>>>>>>>>>>>>TEMPORARILY CHANGE NAME OF EXECUTABLE<<<<<<<<<<<<<<<" source/makenn.f - modified "fix bug assoc with extended tgt" source/make.std - modified "remove -O from optimization" source/pvn.f - modified "add UseTaskForcePV1" source/recon.f - modified "add SignOfPz to fix bug for backward-going photon" source/recon.f - modified "Dima's mods for new ntuple variables and some fixes" source/recon.f - modified "discard fits with negative fitted photon energy" source/recon.f - modified "resolve sign ambiguity in Txz,Tyz using z(hit),z(k)" source/recon.f - modified "TEMPORARY DEBUG OUTPUT" source/reconinfo.f - modified "change range of recierr from [-1,4] to [-1,7]" source/reconinfo.inc - modified "Dima's mods for new ntuple variables and some fixes" source/rhistory.f - modified "mods to evt gen jobs" source/rhistory.f - modified "VE(itk) -> VE(itk,irec)" source/select_signal.f - modified "add dEstar,Emiss cut to AvdS cuts" source/select_signal.f - modified "add E*, Ymiss, Pmiss cuts to AvdS cuts" source/select_signal.f - modified "add RemovePKcut for MZ cuts" source/select_signal.f - modified "add RemoveUpperPKcut for MZ cuts" source/select_signal.f - modified "new AvdS cuts, new Jcuts" source/select_signal.f - modified "remove usveto usage" source/select_signal.f - modified "report Mnu2,CVgate in hi wt evt dump" source/select_signal.f - modified "VE(itk) -> VE(itk,irec)" source/setupanal.f - modified "add CatcherModel for E-dependent catcher ineffys" source/setupanal.f - modified "add IgnoreDIF" source/setupanal.f - modified "add RemovePKcut" source/setupanal.f - modified "add RemoveUpperPKcut" source/setupanal.f - modified "add UseBetaMax" source/setupanal.f - modified "add UseMnu2depCPVgate" source/setupanal.f - modified "add UseTaskForcePV1" source/setupanal.f - modified "lower PV threshold to 3 MeV" source/setupanal.f - modified "remove `Use mu+ chgveto effyfor non-annihilating e+` messsage, add CPVetoGate" source/smear.f - modified "convert sigma(angle) to sigma(tan(angle)) for Bryman model" source/smear.f - modified "Dima's mods for new ntuple variables and some fixes" source/smear.f - modified "fix bug for backwards going photons" source/trackinfo.inc - modified "Dima's mods for new ntuple variables and some fixes" source/transfer2_1.f - modified "add check for nan" source/transfer2_1.f - modified "TEMPORARY Look for NAN" source/userend.f - modified "add GZIP_OUTPUT_FILE" source/userinit.f - modified "Dima's mods for new ntuple variables and some fixes" source/userselect.f - modified "add debug output" source/usveto.f - modified "add IgnoreDIF" source/usveto.f - modified "add UseTaskForcePV1" source/usveto.f - modified "non-anni e+ no longer has mu+ ineffy" source/writemtx.f - modified "warn if correl mtx uncalculable" source/xpar.f - modified "add arg to fix bug for backward-going photon" source/xpar.f - modified "add debug" Templates/control.template - modified "add GZIP_OUTPUT_FILE" % cvs diff -D now > cvs.diff.now cvs server: Diffing . cvs server: Diffing DataBase cvs server: Diffing Templates cvs server: Diffing analysis cvs server: Diffing geometry cvs server: Diffing scripts cvs server: scripts/control.template no longer exists, no comparison available cvs server: Diffing source ############### NEW FILES FOR CVS cvs add DataBase/catcher.ineffy.thres1.4pe.thres2.2pe.100-1000mev.dat cvs add DataBase/catcher.ineffy.thres1.4pe.thres2.2pe.10-100mev.dat cvs add DataBase/catcher.ineffy.thres1.4pe.thres2.2pe.1-10mev.dat cvs add DataBase/catcher.ineffy.thres1.4pe.thres2.2pe.dat cvs add DataBase/catcher.ineffy.thres1.4pe.thres2.3pe.dat cvs add DataBase/catcher.ineffy.thres1.6pe.thres2.2pe.dat cvs add DataBase/catcher.ineffy.thres1.6pe.thres2.3pe.dat cvs add geometry/detector.22.dat cvs add scripts/default.decay.dat.old cvs add source/catchedep.f cvs add source/checkmtx.f cvs add source/fitpi0.inc cvs add source/getcpvetogate.f cvs add source/gethittime.f cvs add source/hitinfo.inc cvs add source/kineraid.f cvs add source/kinerpropg.f cvs add source/kinfun.f cvs commit -m "catcher ineffy files" DataBase/catcher.ineffy.thres1.4pe.thres2.2pe.100-1000mev.dat cvs commit -m "catcher ineffy files" DataBase/catcher.ineffy.thres1.4pe.thres2.2pe.10-100mev.dat cvs commit -m "catcher ineffy files" DataBase/catcher.ineffy.thres1.4pe.thres2.2pe.1-10mev.dat cvs commit -m "catcher ineffy from H.Morii" DataBase/catcher.ineffy.thres1.4pe.thres2.2pe.dat cvs commit -m "catcher ineffy from H.Morii" DataBase/catcher.ineffy.thres1.4pe.thres2.3pe.dat cvs commit -m "catcher ineffy from H.Morii" DataBase/catcher.ineffy.thres1.6pe.thres2.2pe.dat cvs commit -m "catcher ineffy from H.Morii" DataBase/catcher.ineffy.thres1.6pe.thres2.3pe.dat cvs commit -m "change catcher detector from 200x10 to 150x15 (XxY cm)" geometry/detector.22.dat cvs commit -m "copy of default.decay.dat before PDG2004" scripts/default.decay.dat.old cvs commit -m "new E-dependent catcher ineffys" source/catchedep.f cvs commit -m "check validity of doubprec cov mtx" source/checkmtx.f cvs commit -m "Dima's additions for new ntuple variables" source/fitpi0.inc cvs commit -m "calculate Mnu2-dependent CPVeto gate width" source/getcpvetogate.f cvs commit -m "fill CVHitTime" source/gethittime.f cvs commit -m "info on where photon 'converted'" source/hitinfo.inc cvs commit -m "Dima's additions for new ntuple variables" source/kineraid.f cvs commit -m "Dima's additions for new ntuple variables" source/kinerpropg.f cvs commit -m "Dima's additions for new ntuple variables" source/kinfun.f ##################### MODIFIED FILES FOR CVS cvs commit -m "copy of detector.22.dat" geometry/detector.dat cvs commit -m "add more plot options" pve787.kumac cvs commit -m "updated with PDG2004" scripts/default.decay.dat cvs commit -m "executable is fastmc.exe" scripts/simple.run.fastmc.script cvs commit -m "add chargeonly option, change njob for ke3g, kp2" scripts/submit.standard.bunch.of.jobs.script cvs commit -m "modify output" scripts/Trim.Down.ANAL cvs commit -m "add RemoveUpperPKcut for AK cuts" source/akira.offline.f cvs commit -m "add warning if Nevent>MaxEvent, reduce hiwtdump for kp2, remove calls to s/r particleid, set HiWtDump=1e-6 for ke3g, turn off all allbut1 hists" source/anal.f cvs commit -m "add Mnu2(Nrecon), add CVHitTime, VE(itk) -> VE(itk,irec)" source/analvar.inc cvs commit -m "remove smear.inc" source/beam_collimator.f cvs commit -m "add kp2 hists, PK vs Thit plot, remove unused hists, set titles accding to UseBetaMax" source/bookanal.f cvs commit -m "resolve Txz,Tyz ambiguity" source/cfun_0g.f cvs commit -m "protect against mass^2<0, resolve Txz,Tyz ambiguity" source/cfun_1g.f cvs commit -m "protect against mass^2<0, resolve sign ambiguity in Txz,Tyz using z(hit),z(k)" source/cfun.f cvs commit -m "add GZIP_OUTPUT_FILE" source/control.f cvs commit -m "report size of catcher detector" source/detector.f cvs commit -m "add GZIP_OUTPUT_FILE" source/event.inc cvs commit -m "add PK vs Thit plot, fill kp2 hists, remove unused hists, use CVHitTime from common, use Mnu2 from common" source/fillanal.f cvs commit -m "Dima's mods for new ntuple variables and some fixes, handle ierr=5 & 6" source/fitpi0.f cvs commit -m "add CatcherModel, CPVetoGate, IgnoreDIF, RemoveUpperPKcut, UseBetaMax, UseTaskForcePV1" source/flags.inc cvs commit -m "add IgnoreDIF, adjust veto ineffy to take into account CPVetoGate, calculate Mnu2(Nrecon), add UseMnu2depCPVgate, disable PVboost for annih e+ from ke3g, modify debug output" source/getcandwt.f cvs commit -m "Dima's mods for new ntuple variables and some fixes" source/get_pr_resolution.f cvs commit -m "add CatcherModel for E-dependent catcher ineffys, add IgnoreDIF, UseTaskForcePV1, disable PVboost for annih e+ from ke3g, non-anni e+ no longer has mu+ ineffy, add argument CPVineffy" source/gettrkweight.f cvs commit -m "add CatcherModel for E-dependent catcher ineffys, add UseTaskForcePV1, initialize EXTENDED_TARGET, BEAM_COLLIMATION for analysis job" source/initanal.f cvs commit -m "update BR(KL) using RPP 2004" source/initdecayit.f cvs commit -m "add GZIP_OUTPUT_FILE" source/init.f cvs commit -m "try to avoid confusing optimization" source/inside.f cvs commit -m "add debug output" source/kinfit.f cvs commit -m "add catchedep, getcpvetogate, gethittime, remove particleid" source/Makefile.anal cvs commit -m "add checkmtx, kinfun, kinerpropg, kineraid" source/Makefile cvs commit -m "fix bug assoc with extended tgt" source/makenn.f cvs commit -m "remove -O from optimization" source/make.std cvs commit -m "change size of CPV, add debug, improve code" source/positionatcv.f cvs commit -m "add UseTaskForcePV1" source/pvn.f cvs commit -m "Dima's mods for new ntuple variables and some fixes, discard fits with negative fitted photon energy, resolve sign ambiguity in Txz,Tyz using z(hit),z(k)" source/recon.f cvs commit -m "change range of recierr from [-1,4] to [-1,7], Dima's mods for new ntuple variables and some fixes" source/reconinfo.inc cvs commit -m "mods to evt gen jobs, VE(itk) -> VE(itk,irec)" source/rhistory.f cvs commit -m "add E*, Ymiss, Pmiss cuts to AvdS cuts, add RemoveUpperPKcut for MZ cuts, other mods" source/select_signal.f cvs commit -m "add CatcherModel for E-dependent catcher ineffys, IgnoreDIF,RemoveUpperPKcut,UseBetaMax,UseMnu2depCPVgate,UseTaskForcePV1,CPVetoGate" source/setupanal.f cvs commit -m "convert sigma(angle) to sigma(tan(angle)) for Bryman model,Dima's mods for new ntuple variables, fix bug for backwards going photons" source/smear.f cvs commit -m "Dima's mods for new ntuple variables and some fixes" source/trackinfo.inc cvs commit -m "add check for nan" source/transfer2_1.f cvs commit -m "add GZIP_OUTPUT_FILE" source/userend.f cvs commit -m "Dima's mods for new ntuple variables and some fixes" source/userinit.f cvs commit -m "add debug output" source/userevent.f cvs commit -m "add debug output" source/userselect.f cvs commit -m "add IgnoreDIF, UseTaskForcePV1, non-anni e+ no longer has mu+ ineffy" source/usveto.f cvs commit -m "warn if correl mtx uncalculable" source/writemtx.f cvs commit -m "add arg to fix bug for backward-going photon, add debug output" source/xpar.f cvs commit -m "add GZIP_OUTPUT_FILE" Templates/control.template ######################## NEW TAG cvs tag v2_0 results from % cvs tag v2_0 >& cvs.tag.v2_0.log --- cvs.tag.v2_0.log: ? Notes ? check.zellers.cuts ? compare.e949.avds.fluka.pv.ineffy.ps.gz ? cvs.diff.now ? cvs.tag.v2_0.log ? last.kumac ? last.kumacold ? paw.metafile ? pv.ineffy.with.e949.prelim.avds.10mev.threshold.ps.gz ? pv.ineffy.with.e949.prelim.avds.3mev.threshold.ps.gz ? pv.ineffy.with.e949.prelim.avds.5mev.threshold.ps.gz ? remover ? xxxx ? scripts/1.2 ? scripts/OLD.aspect1.bryman.list ? scripts/a. ? scripts/another.one.kpnn.and.ten.kp2.aspect1.bryman.list ? scripts/aspect1.bryman.list ? scripts/aspect1.bryman.list.OLD ? scripts/aspect1.bryman.list.before.cov.matrices ? scripts/aspect1.bryman.new.cpv.300604.1716.log ? scripts/aspect1.bryman.new.pv.190604.1103.log ? scripts/aspect1.bryman.new.pv.220604.2124.log ? scripts/aspect1.bryman.new.pv.cv.010704.1703.log ? scripts/aspect1.bryman.new.pv.log ? scripts/aspect1.bryman.optimistic.pv.log ? scripts/aspect1.bryman.std.pv.180604.1113.log ? scripts/aspect1.bryman.std.pv.230604.0956.log ? scripts/aspect1.bryman.std.pv.250604.1722.log ? scripts/aspect1.bryman.std.pv.log ? scripts/aspect1.konaka.pr.list ? scripts/aspect1.zeller.1.kp3.file.list ? scripts/aspect1.zeller.3.kp2.file.list ? scripts/aspect1.zeller.kapinos2.coll.ext.tgt.zdk.ds.big.ds.hole.list ? scripts/aspect1.zeller.kapinos2.coll.ext.tgt.zdk.ds.list ? scripts/aspect1.zeller.kapinos2.coll.extended.tgt.list ? scripts/aspect1.zeller.kapinos2.ext.tgt.coll.dk.ds.list ? scripts/aspect1.zeller.kapinos2.ext.tgt.coll.dk.ds.summary ? scripts/aspect1.zeller.kcp3.kapinos2.ext.tgt.coll.dk.ds.list ? scripts/aspect1.zeller.ke3g.kcp3.kapinos2.ext.tgt.coll.dk.ds.list ? scripts/aspect1.zeller.ke4.ke3g.kcp3.kapinos2.ext.tgt.coll.dk.ds.list ? scripts/aspect1.zeller.kpnn.kapinos2.list ? scripts/aspect1.zeller.pnn.only.list ? scripts/aspect1.zeller.pr.kapinos1.summary ? scripts/aspect1.zeller.pr.list ? scripts/aspect1.zeller.unskimmed.kp2.list ? scripts/aspect2.konaka.pr.list ? scripts/aspect2.test.list ? scripts/aspect2.zeller.pr.list ? scripts/aspect2.zeller_kpnn_only.list ? scripts/aspect2.zellerfull.pr.list ? scripts/aspect3.konaka.pr.list ? scripts/aspect3.zeller.pr.list ? scripts/aspect4.konaka.pr.list ? scripts/aspect4.zeller.pr.list ? scripts/avg.veto.ineffy.kp2.m0.2 ? scripts/avg.veto.ineffy.kp2.m0.5 ? scripts/avg.veto.ineffy.kp2.m1 ? scripts/avg.veto.ineffy.kp2.m10 ? scripts/avg.veto.ineffy.kp2.m2 ? scripts/avg.veto.ineffy.kp2.m20 ? scripts/avg.veto.ineffy.kp2.m3 ? scripts/avg.veto.ineffy.kp2.m30 ? scripts/avg.veto.ineffy.kp2.m4 ? scripts/avg.veto.ineffy.kp2.m40 ? scripts/avg.veto.ineffy.kp2.m5 ? scripts/avg.veto.ineffy.kp2.m6 ? scripts/avg.veto.ineffy.kp2.p0 ? scripts/avg.veto.ineffy.kp2.p0.2 ? scripts/avg.veto.ineffy.kp2.p0.5 ? scripts/avg.veto.ineffy.kp2.p1 ? scripts/avg.veto.ineffy.kp2.p10 ? scripts/avg.veto.ineffy.kp2.p2 ? scripts/avg.veto.ineffy.kp2.p20 ? scripts/avg.veto.ineffy.kp2.p3 ? scripts/avg.veto.ineffy.kp2.p30 ? scripts/avg.veto.ineffy.kp2.p4 ? scripts/avg.veto.ineffy.kp2.p40 ? scripts/avg.veto.ineffy.kp2.p5 ? scripts/avg.veto.ineffy.kp2.p6 ? scripts/avg.veto.ineffy.kp3.m0.2 ? scripts/avg.veto.ineffy.kp3.m1 ? scripts/avg.veto.ineffy.kp3.m10 ? scripts/avg.veto.ineffy.kp3.m2 ? scripts/avg.veto.ineffy.kp3.m20 ? scripts/avg.veto.ineffy.kp3.m3 ? scripts/avg.veto.ineffy.kp3.m30 ? scripts/avg.veto.ineffy.kp3.m4 ? scripts/avg.veto.ineffy.kp3.m40 ? scripts/avg.veto.ineffy.kp3.m5 ? scripts/avg.veto.ineffy.kp3.m6 ? scripts/avg.veto.ineffy.kp3.p0 ? scripts/avg.veto.ineffy.kp3.p0.2 ? scripts/avg.veto.ineffy.kp3.p1 ? scripts/avg.veto.ineffy.kp3.p10 ? scripts/avg.veto.ineffy.kp3.p2 ? scripts/avg.veto.ineffy.kp3.p20 ? scripts/avg.veto.ineffy.kp3.p3 ? scripts/avg.veto.ineffy.kp3.p30 ? scripts/avg.veto.ineffy.kp3.p4 ? scripts/avg.veto.ineffy.kp3.p40 ? scripts/avg.veto.ineffy.kp3.p5 ? scripts/avg.veto.ineffy.kp3.p6 ? scripts/b.1 ? scripts/c. ? scripts/control.dat.remove.ybeam.constraint ? scripts/cvs.diff.now ? scripts/e787.pv.aspect1.zeller.summary ? scripts/find.warning ? scripts/findnan.control ? scripts/five.kpnn.ke3g.ke4.kcp3.aspect1.bryman.list ? scripts/gunzipper ? scripts/gzipper ? scripts/kcp3.aspect1.bryman.list ? scripts/kcp3.jobs.log ? scripts/ke3g.aspect1.bryman.list ? scripts/ke3g.bkgd.aspect1.konaka ? scripts/ke3g.bkgd.aspect1.konaka.nohole ? scripts/ke3g.bkgd.aspect1.zeller ? scripts/ke3g.bkgd.aspect1.zeller.before.dif.fix ? scripts/ke3g.bkgd.aspect1.zeller.nohole ? scripts/ke3g.bkgd.aspect2.konaka ? scripts/ke3g.bkgd.aspect2.konaka.nohole ? scripts/ke3g.bkgd.aspect2.zeller ? scripts/ke3g.bkgd.aspect2.zeller.before.dif.fix ? scripts/ke3g.bkgd.aspect2.zeller.nohole ? scripts/ke3g.bkgd.aspect3.konaka ? scripts/ke3g.bkgd.aspect3.konaka.nohole ? scripts/ke3g.bkgd.aspect3.zeller ? scripts/ke3g.bkgd.aspect3.zeller.before.dif.fix ? scripts/ke3g.bkgd.aspect3.zeller.nohole ? scripts/ke3g.bkgd.aspect4.konaka ? scripts/ke3g.bkgd.aspect4.konaka.nohole ? scripts/ke3g.bkgd.aspect4.zeller ? scripts/ke3g.bkgd.aspect4.zeller.before.dif.fix ? scripts/ke3g.bkgd.aspect4.zeller.nohole ? scripts/ke3g.bkgd.kp2.m0.2 ? scripts/ke3g.bkgd.kp2.m0.5 ? scripts/ke3g.bkgd.kp2.m1 ? scripts/ke3g.bkgd.kp2.m10 ? scripts/ke3g.bkgd.kp2.m2 ? scripts/ke3g.bkgd.kp2.m20 ? scripts/ke3g.bkgd.kp2.m3 ? scripts/ke3g.bkgd.kp2.m30 ? scripts/ke3g.bkgd.kp2.m4 ? scripts/ke3g.bkgd.kp2.m40 ? scripts/ke3g.bkgd.kp2.m5 ? scripts/ke3g.bkgd.kp2.m6 ? scripts/ke3g.bkgd.kp2.p0 ? scripts/ke3g.bkgd.kp2.p0.2 ? scripts/ke3g.bkgd.kp2.p0.5 ? scripts/ke3g.bkgd.kp2.p1 ? scripts/ke3g.bkgd.kp2.p10 ? scripts/ke3g.bkgd.kp2.p2 ? scripts/ke3g.bkgd.kp2.p20 ? scripts/ke3g.bkgd.kp2.p3 ? scripts/ke3g.bkgd.kp2.p30 ? scripts/ke3g.bkgd.kp2.p4 ? scripts/ke3g.bkgd.kp2.p40 ? scripts/ke3g.bkgd.kp2.p5 ? scripts/ke3g.bkgd.kp2.p6 ? scripts/ke3g.bkgd.kp3.m0.2 ? scripts/ke3g.bkgd.kp3.m1 ? scripts/ke3g.bkgd.kp3.m10 ? scripts/ke3g.bkgd.kp3.m2 ? scripts/ke3g.bkgd.kp3.m20 ? scripts/ke3g.bkgd.kp3.m3 ? scripts/ke3g.bkgd.kp3.m30 ? scripts/ke3g.bkgd.kp3.m4 ? scripts/ke3g.bkgd.kp3.m40 ? scripts/ke3g.bkgd.kp3.m5 ? scripts/ke3g.bkgd.kp3.m6 ? scripts/ke3g.bkgd.kp3.p0 ? scripts/ke3g.bkgd.kp3.p0.2 ? scripts/ke3g.bkgd.kp3.p1 ? scripts/ke3g.bkgd.kp3.p10 ? scripts/ke3g.bkgd.kp3.p2 ? scripts/ke3g.bkgd.kp3.p20 ? scripts/ke3g.bkgd.kp3.p3 ? scripts/ke3g.bkgd.kp3.p30 ? scripts/ke3g.bkgd.kp3.p4 ? scripts/ke3g.bkgd.kp3.p40 ? scripts/ke3g.bkgd.kp3.p5 ? scripts/ke3g.bkgd.kp3.p6 ? scripts/ke3g.bkgd.zeller.pr ? scripts/ke3g.jobs.log ? scripts/ke4.jobs.log ? scripts/ke4.only.aspect1.bryman.list ? scripts/kp2.aspect1.bryman.list ? scripts/kp2.bkgd.aspect1.konaka ? scripts/kp2.bkgd.aspect1.konaka.nohole ? scripts/kp2.bkgd.aspect1.zeller ? scripts/kp2.bkgd.aspect1.zeller.before.dif.fix ? scripts/kp2.bkgd.aspect1.zeller.nohole ? scripts/kp2.bkgd.aspect2.konaka ? scripts/kp2.bkgd.aspect2.konaka.nohole ? scripts/kp2.bkgd.aspect2.zeller ? scripts/kp2.bkgd.aspect2.zeller.before.dif.fix ? scripts/kp2.bkgd.aspect2.zeller.nohole ? scripts/kp2.bkgd.aspect3.konaka ? scripts/kp2.bkgd.aspect3.konaka.nohole ? scripts/kp2.bkgd.aspect3.zeller ? scripts/kp2.bkgd.aspect3.zeller.before.dif.fix ? scripts/kp2.bkgd.aspect3.zeller.nohole ? scripts/kp2.bkgd.aspect4.konaka ? scripts/kp2.bkgd.aspect4.konaka.nohole ? scripts/kp2.bkgd.aspect4.zeller ? scripts/kp2.bkgd.aspect4.zeller.before.dif.fix ? scripts/kp2.bkgd.aspect4.zeller.nohole ? scripts/kp2.bkgd.kp2.m0.2 ? scripts/kp2.bkgd.kp2.m0.5 ? scripts/kp2.bkgd.kp2.m1 ? scripts/kp2.bkgd.kp2.m10 ? scripts/kp2.bkgd.kp2.m2 ? scripts/kp2.bkgd.kp2.m20 ? scripts/kp2.bkgd.kp2.m3 ? scripts/kp2.bkgd.kp2.m30 ? scripts/kp2.bkgd.kp2.m4 ? scripts/kp2.bkgd.kp2.m40 ? scripts/kp2.bkgd.kp2.m5 ? scripts/kp2.bkgd.kp2.m6 ? scripts/kp2.bkgd.kp2.p0 ? scripts/kp2.bkgd.kp2.p0.2 ? scripts/kp2.bkgd.kp2.p0.5 ? scripts/kp2.bkgd.kp2.p1 ? scripts/kp2.bkgd.kp2.p10 ? scripts/kp2.bkgd.kp2.p2 ? scripts/kp2.bkgd.kp2.p20 ? scripts/kp2.bkgd.kp2.p3 ? scripts/kp2.bkgd.kp2.p30 ? scripts/kp2.bkgd.kp2.p4 ? scripts/kp2.bkgd.kp2.p40 ? scripts/kp2.bkgd.kp2.p5 ? scripts/kp2.bkgd.kp2.p6 ? scripts/kp2.bkgd.kp3.m0.2 ? scripts/kp2.bkgd.kp3.m1 ? scripts/kp2.bkgd.kp3.m10 ? scripts/kp2.bkgd.kp3.m2 ? scripts/kp2.bkgd.kp3.m20 ? scripts/kp2.bkgd.kp3.m3 ? scripts/kp2.bkgd.kp3.m30 ? scripts/kp2.bkgd.kp3.m4 ? scripts/kp2.bkgd.kp3.m40 ? scripts/kp2.bkgd.kp3.m5 ? scripts/kp2.bkgd.kp3.m6 ? scripts/kp2.bkgd.kp3.p0 ? scripts/kp2.bkgd.kp3.p0.2 ? scripts/kp2.bkgd.kp3.p1 ? scripts/kp2.bkgd.kp3.p10 ? scripts/kp2.bkgd.kp3.p2 ? scripts/kp2.bkgd.kp3.p20 ? scripts/kp2.bkgd.kp3.p3 ? scripts/kp2.bkgd.kp3.p30 ? scripts/kp2.bkgd.kp3.p4 ? scripts/kp2.bkgd.kp3.p40 ? scripts/kp2.bkgd.kp3.p5 ? scripts/kp2.bkgd.kp3.p6 ? scripts/kp2.bkgd.zeller.pr ? scripts/kp2.m0.1.list ? scripts/kp2.m0.2.list ? scripts/kp2.m0.3.list ? scripts/kp2.m0.5.list ? scripts/kp2.m1.list ? scripts/kp2.m10.list ? scripts/kp2.m2.list ? scripts/kp2.m20.list ? scripts/kp2.m3.list ? scripts/kp2.m30.list ? scripts/kp2.m4.list ? scripts/kp2.m40.list ? scripts/kp2.m5.list ? scripts/kp2.m6.list ? scripts/kp2.p0.1.list ? scripts/kp2.p0.2.list ? scripts/kp2.p0.3.list ? scripts/kp2.p0.5.list ? scripts/kp2.p0.list ? scripts/kp2.p1.list ? scripts/kp2.p10.list ? scripts/kp2.p2.list ? scripts/kp2.p20.list ? scripts/kp2.p3.list ? scripts/kp2.p30.list ? scripts/kp2.p4.list ? scripts/kp2.p40.list ? scripts/kp2.p5.list ? scripts/kp2.p6.list ? scripts/kp3.aspect1.zeller.kapinos2.ext.tgt.coll.dk.ds.list ? scripts/kp3.bkgd.aspect1.konaka ? scripts/kp3.bkgd.aspect1.konaka.nohole ? scripts/kp3.bkgd.aspect1.zeller ? scripts/kp3.bkgd.aspect1.zeller.before.dif.fix ? scripts/kp3.bkgd.aspect1.zeller.nohole ? scripts/kp3.bkgd.aspect2.konaka ? scripts/kp3.bkgd.aspect2.konaka.nohole ? scripts/kp3.bkgd.aspect2.zeller ? scripts/kp3.bkgd.aspect2.zeller.before.dif.fix ? scripts/kp3.bkgd.aspect2.zeller.nohole ? scripts/kp3.bkgd.aspect3.konaka ? scripts/kp3.bkgd.aspect3.konaka.nohole ? scripts/kp3.bkgd.aspect3.zeller ? scripts/kp3.bkgd.aspect3.zeller.before.dif.fix ? scripts/kp3.bkgd.aspect3.zeller.nohole ? scripts/kp3.bkgd.aspect4.konaka ? scripts/kp3.bkgd.aspect4.konaka.nohole ? scripts/kp3.bkgd.aspect4.zeller ? scripts/kp3.bkgd.aspect4.zeller.before.dif.fix ? scripts/kp3.bkgd.aspect4.zeller.nohole ? scripts/kp3.bkgd.kp2.m0.2 ? scripts/kp3.bkgd.kp2.m0.5 ? scripts/kp3.bkgd.kp2.m1 ? scripts/kp3.bkgd.kp2.m10 ? scripts/kp3.bkgd.kp2.m2 ? scripts/kp3.bkgd.kp2.m20 ? scripts/kp3.bkgd.kp2.m3 ? scripts/kp3.bkgd.kp2.m30 ? scripts/kp3.bkgd.kp2.m4 ? scripts/kp3.bkgd.kp2.m40 ? scripts/kp3.bkgd.kp2.m5 ? scripts/kp3.bkgd.kp2.m6 ? scripts/kp3.bkgd.kp2.p0 ? scripts/kp3.bkgd.kp2.p0.2 ? scripts/kp3.bkgd.kp2.p0.5 ? scripts/kp3.bkgd.kp2.p1 ? scripts/kp3.bkgd.kp2.p10 ? scripts/kp3.bkgd.kp2.p2 ? scripts/kp3.bkgd.kp2.p20 ? scripts/kp3.bkgd.kp2.p3 ? scripts/kp3.bkgd.kp2.p30 ? scripts/kp3.bkgd.kp2.p4 ? scripts/kp3.bkgd.kp2.p40 ? scripts/kp3.bkgd.kp2.p5 ? scripts/kp3.bkgd.kp2.p6 ? scripts/kp3.bkgd.kp3.m0.2 ? scripts/kp3.bkgd.kp3.m1 ? scripts/kp3.bkgd.kp3.m10 ? scripts/kp3.bkgd.kp3.m2 ? scripts/kp3.bkgd.kp3.m20 ? scripts/kp3.bkgd.kp3.m3 ? scripts/kp3.bkgd.kp3.m30 ? scripts/kp3.bkgd.kp3.m4 ? scripts/kp3.bkgd.kp3.m40 ? scripts/kp3.bkgd.kp3.m5 ? scripts/kp3.bkgd.kp3.m6 ? scripts/kp3.bkgd.kp3.p0 ? scripts/kp3.bkgd.kp3.p0.2 ? scripts/kp3.bkgd.kp3.p1 ? scripts/kp3.bkgd.kp3.p10 ? scripts/kp3.bkgd.kp3.p2 ? scripts/kp3.bkgd.kp3.p20 ? scripts/kp3.bkgd.kp3.p3 ? scripts/kp3.bkgd.kp3.p30 ? scripts/kp3.bkgd.kp3.p4 ? scripts/kp3.bkgd.kp3.p40 ? scripts/kp3.bkgd.kp3.p5 ? scripts/kp3.bkgd.kp3.p6 ? scripts/kp3.bkgd.zeller.pr ? scripts/kp3.m0.2.list ? scripts/kp3.m1.list ? scripts/kp3.m10.list ? scripts/kp3.m2.list ? scripts/kp3.m20.list ? scripts/kp3.m3.list ? scripts/kp3.m30.list ? scripts/kp3.m4.list ? scripts/kp3.m40.list ? scripts/kp3.m5.list ? scripts/kp3.m6.list ? scripts/kp3.only.aspect1.bryman.list ? scripts/kp3.only.aspect1.bryman.new.pv.log ? scripts/kp3.only.aspect1.bryman.optimistic.pv.log ? scripts/kp3.only.aspect1.bryman.std.pv.log ? scripts/kp3.p0.2.list ? scripts/kp3.p0.list ? scripts/kp3.p1.list ? scripts/kp3.p10.list ? scripts/kp3.p2.list ? scripts/kp3.p20.list ? scripts/kp3.p3.list ? scripts/kp3.p30.list ? scripts/kp3.p4.list ? scripts/kp3.p40.list ? scripts/kp3.p5.list ? scripts/kp3.p6.list ? scripts/kpnn.aspect1.bryman.list ? scripts/kpnn.ke3g.ke4.kcp3.aspect1.bryman.list ? scripts/kpnn.ke4.ke3g.kcp3.aspect1.bryman.list ? scripts/kpnn.kp2.aspect1.bryman.list ? scripts/kpnn.kp2.aspect1.list ? scripts/kpnn.kp2.kcp3.aspect1.bryman.list ? scripts/last.kumac ? scripts/last.kumacold ? scripts/lister ? scripts/neutron.beam.list ? scripts/neutron.dshalo.list ? scripts/neutron.ushalo.list ? scripts/neutron.zushalo.list ? scripts/one.each.aspect1.bryman.list ? scripts/one.ke3g.file.list ? scripts/one.ke3g.ke4.kcp3.aspect1.bryman.list ? scripts/one.kpnn.and.kcp3.aspect1.bryman.list ? scripts/one.kpnn.and.ke4.aspect1.bryman.list ? scripts/one.kpnn.and.kp2..aspect1.bryman.list ? scripts/one.kpnn.and.ten.kp2.aspect1.bryman.list ? scripts/one.kpnn.and.two.kp2.aspect1.bryman.list ? scripts/one.kpnn.ke4.ke3g.kcp3.aspect1.bryman.list ? scripts/paw.metafile ? scripts/remover ? scripts/sample.aspect1.bryman.list ? scripts/short.for.test.list ? scripts/short.test.optimizer.list ? scripts/sob.bkg.aspect1.konaka ? scripts/sob.bkg.aspect1.konaka.nohole ? scripts/sob.bkg.aspect1.zeller ? scripts/sob.bkg.aspect1.zeller.before.dif.fix ? scripts/sob.bkg.aspect1.zeller.nohole ? scripts/sob.bkg.aspect2.konaka ? scripts/sob.bkg.aspect2.konaka.nohole ? scripts/sob.bkg.aspect2.zeller ? scripts/sob.bkg.aspect2.zeller.before.dif.fix ? scripts/sob.bkg.aspect2.zeller.nohole ? scripts/sob.bkg.aspect3.konaka ? scripts/sob.bkg.aspect3.konaka.nohole ? scripts/sob.bkg.aspect3.zeller ? scripts/sob.bkg.aspect3.zeller.before.dif.fix ? scripts/sob.bkg.aspect3.zeller.nohole ? scripts/sob.bkg.aspect4.konaka ? scripts/sob.bkg.aspect4.konaka.nohole ? scripts/sob.bkg.aspect4.zeller ? scripts/sob.bkg.aspect4.zeller.before.dif.fix ? scripts/sob.bkg.aspect4.zeller.nohole ? scripts/sob.bkg.kp2.m0.2 ? scripts/sob.bkg.kp2.m0.5 ? scripts/sob.bkg.kp2.m1 ? scripts/sob.bkg.kp2.m10 ? scripts/sob.bkg.kp2.m2 ? scripts/sob.bkg.kp2.m20 ? scripts/sob.bkg.kp2.m3 ? scripts/sob.bkg.kp2.m30 ? scripts/sob.bkg.kp2.m4 ? scripts/sob.bkg.kp2.m40 ? scripts/sob.bkg.kp2.m5 ? scripts/sob.bkg.kp2.m6 ? scripts/sob.bkg.kp2.p0 ? scripts/sob.bkg.kp2.p0.2 ? scripts/sob.bkg.kp2.p0.5 ? scripts/sob.bkg.kp2.p1 ? scripts/sob.bkg.kp2.p10 ? scripts/sob.bkg.kp2.p2 ? scripts/sob.bkg.kp2.p20 ? scripts/sob.bkg.kp2.p3 ? scripts/sob.bkg.kp2.p30 ? scripts/sob.bkg.kp2.p4 ? scripts/sob.bkg.kp2.p40 ? scripts/sob.bkg.kp2.p5 ? scripts/sob.bkg.kp2.p6 ? scripts/sob.bkg.kp3.m0.2 ? scripts/sob.bkg.kp3.m1 ? scripts/sob.bkg.kp3.m10 ? scripts/sob.bkg.kp3.m2 ? scripts/sob.bkg.kp3.m20 ? scripts/sob.bkg.kp3.m3 ? scripts/sob.bkg.kp3.m30 ? scripts/sob.bkg.kp3.m4 ? scripts/sob.bkg.kp3.m40 ? scripts/sob.bkg.kp3.m5 ? scripts/sob.bkg.kp3.m6 ? scripts/sob.bkg.kp3.p0 ? scripts/sob.bkg.kp3.p0.2 ? scripts/sob.bkg.kp3.p1 ? scripts/sob.bkg.kp3.p10 ? scripts/sob.bkg.kp3.p2 ? scripts/sob.bkg.kp3.p20 ? scripts/sob.bkg.kp3.p3 ? scripts/sob.bkg.kp3.p30 ? scripts/sob.bkg.kp3.p4 ? scripts/sob.bkg.kp3.p40 ? scripts/sob.bkg.kp3.p5 ? scripts/sob.bkg.kp3.p6 ? scripts/sob.bkg.zeller.pr ? scripts/std.pv.aspect1.zeller.summary ? scripts/temp.for.zip ? scripts/temp.script ? scripts/test.list ? scripts/test.optimizer.list ? scripts/trimmed.aspect1.bryman.180604.1113 ? scripts/trimmed.aspect1.zeller.13jun03 ? scripts/trimmed.aspect1.zeller.kapinos2.ext.tgt.coll.dk.ds.23apr04 ? scripts/unskimmed.kpnn.kp2.aspect1.bryman.list ? scripts/x.x ? scripts/zeller.pr.list ? source/Makefile.before.Dima ? source/Makefile.testnormco ? source/Makefile.try ? source/cvs.diff.now ? source/fitpi0.f.before.Dima ? source/get_pr_resolution.F ? source/get_pr_resolution.f.before.Dima ? source/gethittime.F ? source/kineraid.f.before.Dima.9sept04 ? source/kinfun.f.before.Dima.9sept04 ? source/last.kumacold ? source/oldzip.f ? source/packer.f ? source/paw.metafile ? source/recon.f.before.Dima ? source/recon.f.before.Dima.9sept04 ? source/reconinfo.inc.before.Dima ? source/reconinfo.inc.before.Dima.9sept04 ? source/smear.f.before.Dima ? source/temp.for.zip ? source/testnormco.f ? source/testnormco.hbook ? source/testsys.f ? source/testzip.f ? source/trackinfo.inc.before.Dima ? source/try.f ? source/userinit.f.before.Dima cvs server: Tagging . T README T RUNME T pve787.kumac cvs server: Tagging DataBase T DataBase/Al.photon.attenuation.length.txt T DataBase/Be.photon.attenuation.length.txt T DataBase/C.photon.attenuation.length.txt T DataBase/catcher.ineffy.thres1.4pe.thres2.2pe.1-10mev.dat T DataBase/catcher.ineffy.thres1.4pe.thres2.2pe.10-100mev.dat T DataBase/catcher.ineffy.thres1.4pe.thres2.2pe.100-1000mev.dat T DataBase/catcher.ineffy.thres1.4pe.thres2.2pe.dat T DataBase/catcher.ineffy.thres1.4pe.thres2.3pe.dat T DataBase/catcher.ineffy.thres1.6pe.thres2.2pe.dat T DataBase/catcher.ineffy.thres1.6pe.thres2.3pe.dat T DataBase/optimizer.edges.dat T DataBase/preradiator.resolution.txt T DataBase/primary_beam.dat T DataBase/skim.statistics.and.log cvs server: Tagging Templates T Templates/control.copy.job.template T Templates/control.template T Templates/multik.template T Templates/multik.template.no.fit T Templates/multik.template.no.smear.no.fit cvs server: Tagging analysis T analysis/acceptance_2g.kumac T analysis/akira.offline.grafici.new.f T analysis/akira_ntuple.f T analysis/bookakira.f T analysis/catcher.forpaw T analysis/catcher_hit.forpaw T analysis/chiprob.forpaw T analysis/epiwrap.forpaw T analysis/fillakira.f T analysis/init.kumac T analysis/ke3g_chveto.forpaw T analysis/ke3g_chveto_mike.forpaw T analysis/kinfit.cmn T analysis/kl.inc T analysis/konaka_kwt.f T analysis/kpi3_cut.forpaw T analysis/last.kumac T analysis/last.kumacold T analysis/load.akira.var.f T analysis/lorpl.f T analysis/lorpl.forpaw T analysis/mike.forpaw T analysis/mike_test.forpaw T analysis/offline.f T analysis/offline.forpaw T analysis/offline.may1.forpaw T analysis/offline_01aug.forpaw T analysis/offline_1g.forpaw T analysis/offline_1g_original.forpaw T analysis/offline_2p.forpaw T analysis/offline_original.forpaw T analysis/offline_tmp.forpaw T analysis/partprop.inc T analysis/path.forpaw T analysis/path_1g.forpaw T analysis/paw.metafile T analysis/print.forpaw T analysis/pvnew.f T analysis/pvnew.forpaw T analysis/pvnew3.forpaw T analysis/pvnew_e926.forpaw T analysis/pvnew_kami.forpaw T analysis/pvnew_kami_1MeV.forpaw T analysis/pvnew_kami_1mev.forpaw T analysis/pvpi0.forpaw T analysis/trackinfo_2.inc T analysis/wrap_cut.forpaw cvs server: Tagging geometry T geometry/collimator.v07_4.dat T geometry/detector.0.dat T geometry/detector.1.dat T geometry/detector.10.dat T geometry/detector.11.dat T geometry/detector.12.dat T geometry/detector.13.dat T geometry/detector.14.dat T geometry/detector.15.dat T geometry/detector.16.dat T geometry/detector.17.dat T geometry/detector.18.dat T geometry/detector.19.dat T geometry/detector.2.dat T geometry/detector.20.dat T geometry/detector.21.dat T geometry/detector.22.dat T geometry/detector.3.dat T geometry/detector.4.dat T geometry/detector.6.dat T geometry/detector.7.dat T geometry/detector.8.dat T geometry/detector.9.dat T geometry/detector.dat T geometry/detector.dat.Geometry.V cvs server: Tagging scripts T scripts/Create.avg.veto.ineffy.vectors.script T scripts/Create.nnpi.bkg.vectors.script T scripts/Create.sob.bkg.vectors.script T scripts/Trim.Down.ANAL T scripts/Trim.to.File T scripts/analysis.script T scripts/control.copy.job.template T scripts/control.dat T scripts/control.dat.for.interbunch.studies T scripts/control.for.trigger.studies.dat T scripts/control.wrap.multi T scripts/default.decay.dat T scripts/default.decay.dat.old T scripts/list.for.analysis T scripts/run.fastmc.script T scripts/simple.run.fastmc.script T scripts/submit.ALL.fastmc.script T scripts/submit.all.beam.size.jobs T scripts/submit.kp2.beam.size.jobs.script T scripts/submit.many.fastmc.script T scripts/submit.signal.beam.size.jobs T scripts/submit.standard.bunch.of.jobs.script T scripts/unzipper.script T scripts/wrap.run.fastmc.script cvs server: Tagging source T source/Makefile T source/Makefile.anal T source/Makefile.opt T source/acceptable.f T source/acceptance.inc T source/akira.catcher.f T source/akira.epiwrap.f T source/akira.geom.inc T source/akira.kl.inc T source/akira.kpi3_cut.f T source/akira.offline.f T source/akira.offline_1g.f T source/akira.path.f T source/akira.wrap_cut.f T source/anal.f T source/analvar.inc T source/annihilate.f T source/backward.f T source/beam_collimator.f T source/bethe.f T source/blank.inc T source/bookanal.f T source/boostf.f T source/brems.f T source/catcha.f T source/catchedep.f T source/catchnlay.f T source/catchp.f T source/cern.ranmar.f T source/cfun.f T source/cfun_0g.f T source/cfun_1g.f T source/checkgenbod.f T source/checkmtx.f T source/checkodd.f T source/chgveto.f T source/cleo.boostf.f T source/cleo.dalitz.decay.f T source/cleo.rotat.f T source/control.f T source/cutewrap.f T source/cuts.inc T source/cv12.f T source/cvn.f T source/cvold.f T source/dalitz.f T source/decayit.f T source/decayspec.inc T source/dedx_scin.f T source/defineplane.f T source/detector.f T source/detector.inc T source/dfact.f T source/dinv.f T source/dumptopofstack.f T source/ehistory.f T source/event.inc T source/evolve.f T source/fact.inc T source/fastmc.f T source/fillallbut1.f T source/fillanal.f T source/firstmom.f T source/fitpi0.f T source/fitpi0.inc T source/flags.inc T source/ganni.f T source/gannii.f T source/gdrot.f T source/geant.inc T source/gekbin.f T source/gen_vertex.v07_2.f T source/genbod.f T source/geninout.inc T source/gentk0l.f T source/get_pr_resolution.f T source/getannigamlist.f T source/getcandwt.f T source/getcpvetogate.f T source/getdedx.f T source/gethittime.f T source/getnextvol.f T source/getngen.f T source/getparatz.f T source/getpath.f T source/gettmax.f T source/gettrkweight.f T source/getxyatz.f T source/gety0int.f T source/getzvest.f T source/gfang.f T source/goodphoton.f T source/gphysi.f T source/gprob.f T source/gspec.f T source/hitinfo.inc T source/init.f T source/initanal.f T source/initdecayit.f T source/inside.f T source/iopar.inc T source/jump2dir.f T source/kamipv.f T source/kapinos.f T source/kapinos2.f T source/kinema.cmn T source/kineraid.f T source/kinerpropg.f T source/kinfit.cmn T source/kinfit.f T source/kinfun.f T source/kparam.inc T source/kspec.f T source/kwt.f T source/ll.f T source/load.akira.var.f T source/load_optimizer.f T source/lorpl.f T source/make.std T source/makebox.f T source/makenn.f T source/makeplane.f T source/makeslopedbox.f T source/marvins.genbod.f T source/meet.f T source/my.phsp.f T source/myranmar.f T source/n_n_pi0.f T source/nearmiss.f T source/neutronnorm.f T source/new.anal.f T source/normco.f T source/nspectrum.f T source/nt1.anal.inc T source/ntspec.f T source/odd.pair.inc T source/optbin.f T source/optimizer.f T source/optimizer.inc T source/optpacker.f T source/optreportbin.f T source/optsmooth.f T source/optunpacker.f T source/optwrite.f T source/pair_prod.f T source/parser.f T source/particleid.f T source/partprop.inc T source/pdk.f T source/photonatten.f T source/phsp.f T source/pigg.f T source/positionatcv.f T source/prerad.f T source/primary_beam.inc T source/pstart.f T source/pv.f T source/pve787.f T source/pvn.f T source/ranmar.f T source/read_optedges.f T source/readevent.f T source/recon.f T source/reconinfo.inc T source/report.f T source/rhistory.f T source/rnpssn.f T source/rotat.f T source/rotzeller.f T source/select_signal.f T source/setupanal.f T source/skimevent.f T source/smear.f T source/smear.inc T source/stack.inc T source/stats.f T source/study.f T source/tcopy.f T source/tellbox.f T source/test.genbod.f T source/testopt.f T source/trackatvacvesl.f T source/trackinfo.inc T source/transfer2_1.f T source/transport.routines.f T source/trigger.f T source/triggerinfo.inc T source/truexyatanyz.f T source/truexyatz.f T source/umc.wtau.f T source/usegetenv.f T source/userend.f T source/userevent.f T source/userinit.f T source/userselect.f T source/usveto.f T source/vprint.f T source/vtrue.f T source/vvloss.f T source/wl3.f T source/wl3g.f T source/wl4.f T source/wpigg.f T source/wrapepi.f T source/writemtx.f T source/wtau.charged.f T source/wtau0.f T source/wtinfo.f T source/xpar.f T source/ypjunk.f T source/zip.f % cd /u1/djaffe/KOPIO//fastmc/checkout % ls exe fastmc old_fastmc TEST v1_1_fastmc v1_2_fastmc v1_3_fastmc % mv fastmc v1_4_fastmc % cvs checkout -d fastmc mc/fastmc % cd fastmc/ % source RUNME % ls analysis condir CVS DataBase geometry locallog localntuples log ntuples pve787.kumac README RUNME scripts source Templates % mkdir exe % cd source % make % make -f Makefile.anal % ls -lrt ../exe/ total 2864 -rwxrwxr-x 1 djaffe djaffe 1529285 Sep 16 15:46 fastmc.exe -rwxrwxr-x 1 djaffe djaffe 1389550 Sep 16 15:46 anal.exe sizes identical: OK SUMMARY OF MODIFICATIONS ========================= > New, improved or modified analysis options: - Two version of cuts inspired by Andries van der Schaaf available - Several different PV ineffy models available. - New energy dependent catcher ineffys - Add option of positioning CP veto in decay volume - Add option to use timing to evaluate CP veto - Add option to ignore decay-in-flight for CP veto - Add fixed and Mnu2-dependent CP veto gate - Add optional DS window to estimate reduction of CP veto effy - Optionally remove upper P(K) cut > New, improved or modified generation options: - Implement calculation of uncertainties on fitted quantities and add to ntuple (from D.Vavilov) - Add some results of first fit to ntuple (from D.Vavilov) - Optionally gzip output ntuple - Fix bug associated with extended target for neutron production - Fix bug for fitting of backwards-going photons - Fix bug to use sigma(tan(angle)) instead of sigma(angle) in fits - Fix bug so that sigma(tan(angle)) of narrow gaussian is always used for Bryman PR model > Remove -O from compilation options KNOWN PROBLEMS ============== 1. CPV for e+ should take into account wrapper thickness and energy threshold 2. PV ineffy does not take timing into account Thu Sep 16 15:48:12 EDT 2004