ENTRY G+74 0 G+74 0 1 SUBENT G+74 1 0 G+74 1 1 BIB 12 41 G+74 1 2 INSTITUTE (CANMCM) G+74 1 3 REFERENCE (J,CJP,52,950,1974) G+74 1 4 AUTHORS (H.GRAWE,J.E.CAIRNS,M.W.GREENE,J.A.KUEHNER) G+74 1 5 TITLE AN INVESTIGATION OF ODD PARITY STATES IN 32S G+74 1 6 FACILITY (VDG) 4-MV KN VAN DE GRAAFF ACCELERATOR, MCMASTER G+74 1 7 UNIVERSITY, HAMILTON, ONTARIO, CANADA. G+74 1 8 INC-PART (P) PROTONS. G+74 1 9 TARGETS TARGETS WERE PREPARED BY EVAPORATING ZN3P2 ON G+74 1 10 TANTALUM BACKINGS THAT COULD BE DIRECTLY COOLED. G+74 1 11 THE TYPICAL TARGET THICKNESS WAS 6 KEV FOR 1.5-MEV G+74 1 12 PROTONS. G+74 1 13 METHOD TARGETS OF ZN3P2 WERE BOMBARDED WITH 20 MICROAMP G+74 1 14 PROTON BEAMS FROM THE MCMASTER UNIVERSITY 4-MV G+74 1 15 KN VAN DE GRAAFF ACCELERATOR. RESONANT STATES IN G+74 1 16 32S AT EP = 895, 1054, 1089, 1118, 1438, AND 1583 G+74 1 17 KEV WERE POPULATED BY THE 31P(P,GAMMA)32S REACTION. G+74 1 18 GAMMA-RAYS FROM THE DECAY OF THESE STATES WERE G+74 1 19 MEASURED WITH A 45-CM**3 GE(LI) DETECTOR AT 55 AND G+74 1 20 90 DEGREES. ANGULAR DISTRIBUTIONS WERE MEASURED AT G+74 1 21 0, 30, 45, 60, AND 90 DEGREES FOR THE EP = 1438 G+74 1 22 AND 1583 KEV RESONANCES. THE TARGET TO DETECTOR G+74 1 23 DISTANCE WAS 7.5 CM. LIFETIME MEASUREMENTS WERE G+74 1 24 DETERMINED USING THE DOPPLER-SHIFT ATTENUATION G+74 1 25 METHOD. THE 45-CM**3 GE(LI) DETECTOR WAS PLACED G+74 1 26 AT 0, 45, AND 120 DEGREES. THE DETECTOR WAS AT G+74 1 27 10 CM FROM THE TARGET FOR THIS MEASUREMENT. A G+74 1 28 RADIOACTIVE SOURCE PLACED IN A FIXED POSITION WAS G+74 1 29 USED TO GENERATE UNSHIFTED GAMMA RAYS FOR THE G+74 1 30 PURPOSE OF CALIBRATION. THE EFFICIENCY OF THE G+74 1 31 45-CM**3 GE(LI) DETECTOR WAS DETERMINED WITH A G+74 1 32 CALIBRATED 56CO GAMMA-RAY SOURCE. A COMPUTER G+74 1 33 PROGRAM WAS USED TO ANALYZE THE DOPPLER-SHIFT G+74 1 34 ATTENUATION DATA. OTHER DETAILS ARE GIVEN IN G+74 1 35 THE ORIGINAL PAPER. G+74 1 36 DETECTOR (GELI) 45-CM**3 GE(LI) DETECTOR IN VARIOUS POSITIONS. G+74 1 37 MONITORS (GELI) 12-CM*3 GE(LI) DETECTOR IN A FIXED POSITION. G+74 1 38 (CI) CURRENT INTEGRATOR. G+74 1 39 CORRECTION CORRECTIONS WERE APPLIED FOR NON-RESONANT G+74 1 40 CONTRIBUTIONS AND FOR GAIN SHIFTS BETWEEN RUNS G+74 1 41 AT DIFFERENT ANGLES. G+74 1 42 ERR ANALYS ERRORS GIVEN BUT DETAILS NOT DISCUSSED IN THE PAPER. G+74 1 43 ENDBIB 41 G+74 1 44 ENDSUBENT 1 G+74 199999 SUBENT G+74 2 0 G+74 2 1 BIB 2 8 G+74 2 2 REACTION 31P(P,GAMMA)32S G+74 2 3 COMMENTS MEAN LIFETIMES FROM DOPPLER-SHIFT ATTENUATION G+74 2 4 MEASUREMENTS FROM TABLE 1 OF THE PAPER ARE GIVEN. G+74 2 5 EX = LEVEL EXCITATION ENERGY. TAU = MEAN LIFETIME. G+74 2 6 TAU-ERR(+) = POSITIVE LOBE OF ERROR IN MEAN LIFETIME. G+74 2 7 TAU-ERR(-) = NEGATIVE LOBE OF ERROR IN MEAN LIFETIME. G+74 2 8 FSEC = 10**(-15) SECONDS. A BLANK ENTRY INDICATES G+74 2 9 THAT NO VALUE IS AVAILABLE IN THE TABLE. G+74 2 10 ENDBIB 8 G+74 2 11 DATA 4 3 G+74 2 12 EX TAU TAU-ERR(+) TAU-ERR(-) G+74 2 13 MEV FSEC FSEC FSEC G+74 2 14 6.62 810. 350. 250. G+74 2 15 6.76 300. G+74 2 16 7.95 110. 60. 40. G+74 2 17 ENDDATA 5 G+74 2 18 ENDSUBENT 2 G+74 299999 SUBENT G+74 3 0 G+74 3 1 BIB 2 10 G+74 3 2 REACTION 31P(P,GAMMA)32S G+74 3 3 COMMENTS COEFFICIENTS OF LEGENDRE-POLYNOMIAL EXPANSION FITS G+74 3 4 TO MEASURED ANGULAR DISTRIBUTIONS OF GAMMA-RAYS G+74 3 5 DE-EXCITING SELECTED RESONANCES ARE GIVEN. DATA FROM G+74 3 6 TABLE 2. EP = RESONANCE PROTON ENERGY. EX = RESONANCE G+74 3 7 EXCITATION ENERGY IN 32S. EI = ENERGY OF INTIAL STATE G+74 3 8 OF GAMMA-RAY TRANSITION. EF = ENERGY OF FINAL STATE G+74 3 9 OF TRANSITION. A2 = COEFFICIENT OF P2 LEGENDRE TERM. G+74 3 10 A2-ERR = ERROR IN A2. A4 = COEFFICIENT OF P4 G+74 3 11 LEGENDRE TERM. A4-ERR = ERROR IN A4. G+74 3 12 ENDBIB 10 G+74 3 13 DATA 8 13 G+74 3 14 EP EX EI EF A2 A2-ERR G+74 3 15 A4 A4-ERR G+74 3 16 KEV MEV MEV MEV NO-DIM NO-DIM G+74 3 17 NO-DIM NO-DIM G+74 3 18 1438. 10.256 10.256 7.95 0.040 0.07 G+74 3 19 0.01 0.08 G+74 3 20 1438. 10.256 10.256 6.76 -0.20 0.07 G+74 3 21 -0.02 0.07 G+74 3 22 1438. 10.256 10.256 6.62 0.54 0.03 G+74 3 23 -0.01 0.04 G+74 3 24 1438. 10.256 10.256 5.01 -0.57 0.06 G+74 3 25 0.02 0.07 G+74 3 26 1438. 10.256 10.258 4.46 0.53 0.05 G+74 3 27 0.05 0.06 G+74 3 28 1438. 10.256 6.62 5.01 0.40 0.04 G+74 3 29 0.21 0.04 G+74 3 30 1438. 10.256 6.62 4.46 0.43 0.04 G+74 3 31 0.01 0.05 G+74 3 32 1583. 10.395 10.395. 7.95 0.54 0.07 G+74 3 33 -0.07 0.07 G+74 3 34 1583. 10.395 10.395. 6.76 -0.07 0.09 G+74 3 35 0.03 0.10 G+74 3 36 1583. 10.395 10.395. 6.62 0.48 0.02 G+74 3 37 -0.01 0.02 G+74 3 38 1583. 10.395 10.395. 5.01 0.11 0.04 G+74 3 39 0.08 0.04 G+74 3 40 1583. 10.395 10.395. 4.46 0.52 0.10 G+74 3 41 -0.28 0.10 G+74 3 42 1583. 10.395 6.62 5.01 0.41 0.02 G+74 3 43 0.23 0.02 G+74 3 44 ENDDATA 30 G+74 3 45 ENDSUBENT 3 G+74 399999 ENDENTRY 3 G+749999999