Type the Series letter:
* Click on Arrows to Sort *Series |
System |
Description | Weight (Lbs) | Assembly Drawing |
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Q4 Quadrupole for Second Series (1990 Series) low-beta insertions. Differs from Q2 in the Q4 has two beam detectors. Focusing triplet component closest to interaction region. B13 devices do not appear to have Kautsky valve ports. (DR's Use SCQ) |
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Tev Quad Gender not assigned constructed up to Coldmass Assembly Can complete as a B13 or N13 per Ray Hanft5/12/99. Only one of these exist currently as of 2/10/00 it is at MSB. SN is B/N13?. |
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Tevatron Power Supply Cheap Choke. |
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Passive Filter System Choke. Units built by Elma Engineering & FermiLab. Elma Engineering was built with coils in series. Others are in parallel. CHR100-0 Serial number was given to the Elma Device. CHR200-0 was given to the other unknown manufacturer device. |
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TEV I Abort Current Septum Magnet. |
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Horizonal plus Vertical Dipole Corrector. |
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Long Horizonal and Vertical Dipole Corrector |
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Corrector with Horizonal and Vertical Dipole and Skew Quad |
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Three layer correction package for Tevatron. Horizonally bending dipole corrector. |
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Three layer Tevatron Correction Package. Correction dipole bends vertically |
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DR use Only. For EDTX series magnets. |
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35" Bump Magnet. Impregrated solid wire (AWG #2, Class 105, Heavy Formvar Film) coils. EPB Dipole (MD-19418) lamination, modified by cutting pole tip to increase aperature from 1.5" to 2". Beam tube either 47.25" (using 6" flanges) (Magnet Assy ME-186859) or 48.25" (using 4" flanges)(Magnet Assy ME-186897). Original drawing magnet name is 2-4-35-200-48.25 Bump Magnet. (DR's Use EDT) |
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25" Horizontal Tevatron Quadrupole. Submitted by Ray Hanft on 4 Dec '00. The initial design of the six "straight sections" in the Tevatron was done by the physicist Tom Collins, and the special
quadrupoles needed became known as "Collins' quads". These all are very similar in construction to the "arc" quadrupoles in the TQ series except that they are of different lengths. All the
specialized quadrupoles are named using the following convention:
PLLNNX:
P indicates the orientation of the beam position monitor
V - Vertical
H - Horizontal
N - None present
B - Both vertical and horizontal (no Collins quad is a B type, but some low-beta quads are)
LL indicates the magnetic length in inches
NN is a serial number
X indicates how the magnet is bussed, F for horizontal focussing, D for horizontal defocusing.
The various kinds of Collins quads are H25, V25, H32, V32, H82, H90, N99. |
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32" Horizontal Tevatron Quadrupole. See H25 for description. |
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82" Horizontal Tevatron Quadrupole. See H25 for description. |
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90" Horizontal Tevatron Quadrupole. See H25 for description. |
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Ionization profile monitor (IPM) magnets for the Tevatron. The serial numbers IPMT001 through 004 were purchased on PO xxx by the Accelerator Division. The drawings are currently available in hard copy only (29-Jul-2004). Produced by Scanditronix Magnet AB, Vislanda, Sweden. |
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Ionization Profile Montior (IPM) magnets for the Tevatron. Produced by Scanditronix Magnet AB, Vislanda, Sweden. |
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Q2 Quadrupole for Second Series (1990 Series) low-beta insertions. Focusing triplet components. N13 magnets appear to have Kautsky valve ports on the feedbox. (DR's Use SCQ) |
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Outer members of first low-beta triplet at B0 for CDF. Both cryogenically single ended and double ended quadrupoles included in this series. |
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Middle member of first low-beta triplet installed at B0 for CDF. All are bused as D focussing. |
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Q3 quadrupole for Second Series (1990 Series) low-beta insertions. Middle component of focusing triplet. N23 magnets have Kautsky valve ports. (DR's Use SCQ) |
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Q1/Q5 Quadrupole for Second Series low-beta insertion. Although base Q1 and Q5 requirements are different, N54 magnets are built to serve as either Q1 or Q5. N54 magnets do not have Kautsky valve ports. (DR's Use SCQ) |
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66" Tevatron Quadrupole. Special ring quadrupole associated with first low-beta insertion at B0 for CDF. Packaged with associated spool piece into single housing. Only one exists per Ray Hanft 8/15/00 N6602. |
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"Collins quad" See H25 for description. |
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Octapole, Skew Sextupole, Skew Quad Corrector. |
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Octapole, Sextupole, Quad Corrector. |
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Octapole, Sextupole, Skew Quad Corrector. |
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Kicker Magnet. |
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Pulse Forming Line Kicker
Project Tevatron
Series PFLA
Starting at 100 as of now
DR's PFL |
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Kicker Magnet |
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Tevatron Electrostatic Seperator 170KV Polarity Reversing Switch. Drawings/design and original fabrication done by Beams Division. Updating dwgs done by TD, controlled by Beams. Main Assembly Dwg 2214-ME-276604. Polarity Reversing Switch is a motor drive device with an turntable with rotates between HV Swtich Feed-Thru to reverse polarity. Switch in immersed in RTEMP oil. |
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S5 cross-section 5-in-1 Magnets for LowBeta 89 Project |
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Six-inch (6") Symmetric Lambertson, also known as the Tevatron Abort/Extraction Lambertson, also known as the A0/C0 Lambertson. |
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717 design quad (two shell) for use in spools. |
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"Top bus" superconducting dipole. Wt: 8700 lbs |
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"Top coil" superconducting dipole. Wt: 8700 lbs |
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(DR's use SCD) |
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Tevatron Electron Lens. Built by IHEP, Protvina, Russia. Originally built for beam-beam compensation (pressure "silver sticker" states 'Beam-Beam Compensation Solenoid'), but was later used to clean the abort gap in the Tevatron. Two were built, but they are not identical. TEL #1 (TEL001) is Vessel Number RSB536, and TEL #2 (TEL002) is Vessel Number RSB564. |
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Tevatron Beam Separator. Device is housed within a 14" O.D. X 102" Long SS pipe (Dwg 2214-ME-261551). Device consists of two major assemblies. High Voltage Feed-thru Assembly (Dwg 2214-ME-261598) and Electrode Support Assembly (Dwg 2214-ME-261599). Devices to be built by Technical Division in 2002 - 2003 will be called by designator TES and serial numbers 101 to 104. |
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6" Symetrical Lambertson, Horizontal was 6SL Prefix Change by Dave Harding 9/16/99. |
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Tevatron 66" standard arc Quadrupoles. They come in two flavors: focusing and defocusing (TQxxxF and TQxxxD respectively). (DR's Use SCQ) |
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A Spool with DSQ I Correction Package. Upstream - DSQ 1, Downstream - None, Safety Leads - No, Power Leads - None, Slot Length - 43", Beam Position Monitor - None. Type and Function Sheet Drawing Number ME-124910. (DR's use SCS) |
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B Spool with DSQ II Correction Package. Upstream - DSQ 2, Downstream - None, Safety Leads - Yes, Power Leads - None, Slot Length - 43", Beam Position Monitor - None. Type and Function Sheet Drawing Number ME-124910. (DR's use SCS) |
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B Spool with DSQ II Correction Package. Upstream - DSQ 2, Downstream - Bypass, Safety Leads - Yes, Power Leads - None, Slot Length - 72", Beam Position Monitor - None. Type and Function Sheet Drawing Number ME-124910. (DR's use SCS) |
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C Spool with DSQ I & OSQ I Correction Package. Upstream - DSQ 1, Downstream - OSQ 1, Safety Leads - No, Power Leads - None, Slot Length - 72", Beam Position Monitor - None. Type and Function Sheet Drawing Number ME-124910. (DR's use SCS) |
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C Spool with DSQ I & OSQ I Correction Package. Upstream - DSQ 1, Downstream - OSQ 1, Safety Leads - Yes, Power Leads - None, Slot Length - 72", Beam Position Monitor - None. Type and Function Sheet Drawing Number ME-124910. (DR's use SCS) |
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Like a TSC, but it has a dummy downstream corrector. The following are believed to be TSCBs: TSCB134, TSCB139, TSCB180, TSCB200 and TSCB204. |
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D Spool with DSQ II & OSQ I Correction Package. Upstream - DSQ 2, Downstream - OSQ 1, Safety Leads - Yes, Power Leads - None, Slot Length - 72", Beam Position Monitor - None. Type and Function Sheet Drawing Number ME-124910. (DR's use SCS) |
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D Spool with DSQ II Correction Package. Upstream - DSQ 2, Downstream - Dummy, Safety Leads - Yes, Power Leads - None, Slot Length - 72", Beam Position Monitor - None. Type and Function Sheet Drawing Number ME-124910. (DR's use SCS) |
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Recooler D Spool with DSQ II & OSQ I Correction Package. Upstream - DSQ 2, Downstream - OSQ 1, Safety Leads - Yes, Power Leads - None, Slot Length - 72", Beam Position Monitor - None. Type and Function Sheet Drawing Number ME-124910. (DR's use SCS) |
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E Spool with DSQ I & OSQ II Correction Package. Upstream - DSQ 1, Downstream - OSQ 2, Safety Leads - No, Power Leads - None, Slot Length - 72", Beam Position Monitor - None. Type and Function Sheet Drawing Number ME-124910. (DR's use SCS) |
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F Spool with DSQ II & OSQ II Correction Package. Upstream - DSQ 2, Downstream - OSQ 2, Safety Leads - Yes, Power Leads - None, Slot Length - 72", Beam Position Monitor - None. Type and Function Sheet Drawing Number ME-124910. (DR's use SCS) |
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Recooler F Spool with DSQ II & OSQ II Correction Package. Upstream - DSQ 2, Downstream - OSQ 2, Safety Leads - Yes, Power Leads - None, Slot Length - 72", Beam Position Monitor - None. Type and Function Sheet Drawing Number ME-124910. (DR's use SCS) |
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G Spool with DSQ I & OSQ III Correction Package. Upstream - DSQ 1, Downstream - OSQ 3, Safety Leads - No, Power Leads - None, Slot Length - 72", Beam Position Monitor - None. Type and Function Sheet Drawing Number ME-124910. (DR's use SCS) |
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H Spool with DDQ Correction Package. Upstream - DDQ, Downstream - None, Safety Leads - Yes, Power Leads - 5000, Slot Length - 49.91", Beam Position Monitor - Upstream Vertical. Type and Function Sheet Drawing Number ME-124910. (DR's use SCS) 'Although 30" DDQ Correctors are used in TSH, TSS, and TSP Spools, the electrical inspection data shows the characteristics are different between TSH/TSS, and TSP (refer to DR SCS-0077). It is proposed that different conductor was used for the TSP Spools, but we cannot confirm this, and so we do not know why they are different'. Per Jamie Blowers(5/3/01). |
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H Spool with DDQ Correction Package and extended Power Lead Assembly. Upstream - DDQ, Downstream - None, Safety Leads - Yes, Power Leads - 5000, Slot Length - 49.91", Beam Position Monitor - Upstream Vertical. Only one installed and one spare, these have an extension that allows a Tevatron extraction dipole to pass between the body of the spool and the power leads. Modified to accomodate the physical space at tunnel location A11. This modification allows an extraction dipole to pass between the body of the spool and the power leads.
(DR's use SCS) Email from Ray Hanft attached below;
Subject: TSH300
Date: Mon, 25 Jan 1999 12:13:25 -0600
From: HANFT@MDTF00
Organization: Fermi National Accelerator Laboratory
To: skweres@imapserver1.fnal.gov, harding@popgtw.fnal.gov
For Tevatron superconducting devices we do not use the rework notation that FMI uses.
We own two H-1 spools; one is in IB#2 where you can view it. The "-1" notation is an abomination, but that's what was used, down to the ID plate on the device. The H-1 performs the function of a "regular" H-spool at the point of fixed target extraction. Because of cramped quarters, its power leads are offset from the body of the spool to allow room for an extraction magnet between them!
So "regular" H-spools and the H-1 variety are not interchangeable.
You will be amused to know that the fact that the extraction H-spool was physically different than the regular H-spool was lost during the 1980's and rediscovered sometime around 1990! This is somehat similar to the situation with the extraction 99" quad, which special character was lost in the 1980's and only rediscovered a few weeks ago!
Type and Function Sheet Drawing Number ME-124910. |
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H Spool with DDQ Correction Package and New High Temperature Leads Installed. Upstream - DDQ, Downstream - None, Safety Leads - Yes, Power Leads - 5000, Slot Length - 49.91", Beam Position Monitor - Upstream Vertical. Type and Function Sheet Drawing Number ME-124910. (DR's use SCS) |
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I Spool with DD Correction Package. Upstream - 30" D.D., Downstream - Bypass, Safety Leads - No, Power Leads - None, Slot Length - ~84", Beam Position Monitor - None. Type and Function Sheet Drawing Number ME-124910. (DR's use SCS) |
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I Spool with DD Correction Package. Upstream - 30" D.D., Downstream - Bypass, Safety Leads - No, Power Leads - None, Slot Length - ~125", Beam Position Monitor - None. Type and Function Sheet Drawing Number ME-124910. (DR's use SCS) |
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J Spool with Upstream - 717 Quad, Downstream - DSQ 1, Safety Leads - Yes, Power Leads - 5000*, Slot Length - 72", Beam Position Monitor - None. * Power Leads power the Upstream Corrector. Type and Function Sheet Drawing Number ME-124910. (DR's use SCS) |
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K Spool with Upstream - 717 Quad, Downstream - DSQ 2, Safety Leads - Yes, Power Leads - 5000*, Slot Length - 72", Beam Position Monitor - None. * Power Leads power the Upstream Corrector. Type and Function Sheet Drawing Number ME-124910. (DR's use SCS) |
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L Spool with Upstream - 30" D.D., Downstream - None, Safety Leads - Yes, Power Leads - 5000, Slot Length - 56.149", Beam Position Monitor - Downstream Horizontal/Vertical. Type and Function Sheet Drawing Number ME-124910. (DR's use SCS) |
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M Spool with Upstream - 5" Quad, Downstream - DSQ 1, Safety Leads - Yes, Power Leads - 2000*, Slot Length - 72", Beam Position Monitor - None. Type and Function Sheet Drawing Number ME-124910. * Power Leads power the Upstream Corrector. Type and Function Sheet Drawing Number ME-124910. (DR's use SCS) |
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N Spool with Upstream - 5" Quad, Downstream - DSQ 2, Safety Leads - Yes, Power Leads - 2000*, Slot Length - 72", Beam Position Monitor - None. Type and Function Sheet Drawing Number ME-124910. * Power Leads power the Upstream Corrector. Type and Function Sheet Drawing Number ME-124910. (DR's use SCS) |
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P Spool with Upstream - DDQ, Downstream - None, Safety Leads - Yes, Power Leads - 5000, Slot Length - 56.149", Beam Position Monitor - Downstream Horizontal/Vertical. Type and Function Sheet Drawing Number ME-124910. (DR's use SCS) 'Although 30" DDQ Correctors are used in TSH, TSS, and TSP Spools, the electrical inspection data shows the characteristics are different between TSH/TSS, and TSP (refer to DR SCS-0077). It is proposed that different conductor was used for the TSP Spools, but we cannot confirm this, and so we do not know why they are different'. Per Jamie Blowers(5/3/01). |
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R Spool with Upstream - None (Drift Space), Downstream - None, Safety Leads - No, Power Leads - 5000, Slot Length - 36", Beam Position Monitor - None. Type and Function Sheet Drawing Number ME-124910. (DR's use SCS) |
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S Spool with Upstream - DDQ, Downstream - None, Safety Leads - No, Power Leads - None, Slot Length - 49.91", Beam Position Monitor - Upstream Vertical. Type and Function Sheet Drawing Number ME-124910. (DR's use SCS) 'Although 30" DDQ Correctors are used in TSH, TSS, and TSP Spools, the electrical inspection data shows the characteristics are different between TSH/TSS, and TSP (refer to DR SCS-0077). It is proposed that different conductor was used for the TSP Spools, but we cannot confirm this, and so we do not know why they are different'. Per Jamie Blowers(5/3/01). |
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25" Vertical Tevatron Quadrupole. See H25 for description. |
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32" Vertical Tevatron Quadrupole. See H25 for description. |
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We have a variant on the 200-turn switchyard bump magnets that has a 4" gap and
only 120 turns. The drawing is ME-225309, though it is not immediately obvious
from the drawing that the coils are wired in parallel. I hearby designate this
assembly drawing to be series EDTC. If we run into a series wired magnet, we'll
give it a different designation. The length is 40". The gap is 4". Aperture width is about 5". The drawing shows a 54" beam tube, but neither of the magnets currently at TPL has a beam
tube. I calculate a resistance of about 0.063 Ohm. Per Dave Harding e-mail of 8/12/03 Entered by Bob Jensen. |
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Switchyard Lambertson for Reseach Division. (DR's use LMB) |
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4-4-30 Vernier Dipole comes in five styles with varying gaps. Switchyard Bump Magnet. DWG 2920-MD-30012 |
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MEB Style Dipole Like the FMI 160/240 except used a 2 layer 1X2 conductor coil instead of a 1X4 conductor coil. Only one magnet constructed. (DR use only) |
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SSC model dipole magnets, between 1 - 1.5 meters in length (record added 28-Nov-05 by J. Blowers). |
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50mm "long" model SSC dipole |
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3 Ft. B2 Reference Magnet for Stand 3. (DR's use B2A) |
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Electron Cooling 2 meter long solenoid |
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Electron Cooling Dipole to be installed for use in the Recycler ring. |
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Electron Cooling Quadrupole Magnet to be installed in the Recycler ring system to cool Pbars. |
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Cern LEP Corrector Magnets (MCV/MCH). (DR's use LEP). |
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LEP Horizontal Dipole Corrector, air cooled. For reuse in Recycler and elsewhere. 'C' magnet with coil around back leg. |
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LEP Horizontal Dipole Corrector, water cooled. For reuse in Recycler and elsewhere. 'C' Magnet with coil around back leg. |
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Horizontal LEP trim magnet with new coil packages. |
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LEP Vertical Dipole Corrector, air cooled. For reuse in Recycler and elsewhere. 'C' magnet with coil around back leg. |
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LEP Vertical Dipole Corrector, water cooled. For reuse in Recycler and elsewhere. 'C' Magnet with coil around back leg. |
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Vertical LEP trim magnet with new coil |
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A Mirror Dipole Magnet for the Recycler abort line as it approaches the Main Injector Abort Line. Many shared components with other magnets. |
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Mirror Gradient Magnet, arc-style, defocussing used in Beam Line and Ring for transfers between Main Injector and Recycler. Magnetically same as RGF, except some have opposite field polarity. |
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Mirror Gradient Magnets for use Recycler (same as MGDU), except upside down-- OBSOLETE NAME |
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Mirror Gradient Magnets for use Recycler (same as MGDL, except upside down-- OBSOLETE NAME |
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Prototype Mirror Magnets for use in extraction and injection channels. |
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A mirror version of the focussing dispersion suppressor gradient for use in one transfer line between Recycler and Main Injector. |
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Recycler Trim Quadrupoles. Mfg by Moscow Radio Technical Institute, Moscow, Russia. Cores are exactly like MQT. Coils were wound using a different wire gage, therefore the electrical properties are slightly different from MQT.
(DR's use MIT) |
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Permanent Magnet Dipole |
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Permanent Magnet Dipole prototype are pairs of PDC. |
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Recycler Pulse Forming Line Assembly w/Cable. |
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Permanent Magnet Gradient Prototype. |
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Permanent Magnet combined function gradient+dipole for Recycler, built using laminated pole pieces from Efremov Institute, Russia. |
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Permanent Magnet Lambertson prototype. |
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Permanent Magnet Quadrupole prototype. |
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Permanent Magnet Stability Test Magnets. |
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Recycler Flying Wire Assembly. Main Assembly Dwb 5520-ME-400500. Units 001, 002 & 003 built in Dec '02 with two being installed. Third is a spare. Another unit with only the Flanged Can Assembly ME-400501 was produced as a back-up with no interior mechanism. |
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Permanent magnet combined function gradient+dipole+sextupole for Recycler. Defocussing arc. Double bricks on top/bottom; no side bricks. |
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Permanent magnet combined function gradient+dipole+sextupole for Recycler. Focussing arc. Double bricks on top/bottom; no side bricks. |
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Permanent magnet combined function gradient+dipole for Recycler. Double bricks on top/bottom; no side bricks. |
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Permanent Magnet Lambertson for Recycler. Two mechanical configurations, two brick orientations for each mechanical config. |
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Standard Recycler Permanent Magnet Quadrupole with strength suitable for Recycler Abort Line Type A. |
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Standard Recycler Permanent Magnet Quadrupole with strength suitable for Recycler Abort Line Type B. |
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Standard Recycler Permanent Magnet Quadrupole with strength suitable for Recycler Abort Line Type C. |
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Recycler Quadrupole Magnet, high beta strength 0, defocussing (qhb0). A hybrid permanent magnet driven by strontium ferrite bricks. OBSOLETE NAME. DO NOT BUILD. |
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Recycler Quadrupole Magnet, high beta strength 1, focussing (qhb1). A hybrid permanent magnet driven by strontium ferrite bricks. |
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Recycler Quadrupole Magnet, high beta strength 2, defocussing (qhb2). A hybrid permanent magnet driven by strontium ferrite bricks. |
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Recycler Quadrupole Magnet, high beta strength 3, focussing (qhb3). A hybrid permanent magnet driven by strontium ferrite bricks. |
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See RQRA Magnet Description. |
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Recycler Quadrupole Magnet, regular straight section, defocussing (ssqd). A hybrid permanent magnet driven by strontium ferrite bricks. |
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Recycler Quadrupole Magnet. The standard aperture quadrupole ia the extreme ends of the high beta insertion. A hybrid permanent magnet driven by strontium ferrite bricks. |
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Recycler focussing Quad. Nominal gdl = 1.3345321 T. |
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Recycler Quad for use in paraphased trombone "triplet" prototyping (at least). nominal gdl = 1.4117 T (see Pruss Quickmail 9/11/97) |
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Modified RQRA. |
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Modified RQRA. |
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Modified RQRA. |
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Modified RQRA. |
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Modified RQRA. |
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Modified RQRA. |
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Modified RQRA. |
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Modified RQRA. |
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Modified RQRA. |
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Modified RQRA. |
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Modified RQRA. |
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Modified RQRA. |
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Recycler Quadrupole Magnet, bypass strength 1, defocussing (qbp1). A hybrid permanent magnet driven by strontium ferrite bricks. |
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Ask Hank Glass. |
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Recycler Quadrupole Magnet, bypass strength 3, focussing (qbp3). A hybrid permanent magnet driven by strontium ferrite bricks. |
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Recycler Quadrupole Magnet, bypass strength 4, defocussing (qbp4). A hybrid permanent magnet driven by strontium ferrite bricks. |
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Permanent Magnet, Panowski Style, skew quadrupoles designed by Jim Volk for the Recycler transfer lines to compensate for the skew quadrupole component of the Recycler Lamberston magnets (RLA). |
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Recycler Trim Skew Quad
Design current - 3.45 A: Resistance (@20 C) - 1.05 Ohm: Inductance - 0.14 H
Voltage drop 4.2 V: Power consumption 14.5 W
Steel weight - 10 kG: Copper weight - 7 kG Water cooling - none Produced by Efremov Institute/Russia |
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Permanent Magnet, Panowski Style, skew quadrupoles designed by Jim Volk for the Recycler transfer lines to compensate for the skew quadrupole component of the Recycler Lambertson magnets (RLA). |
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Recycler Quadrupole Magnet, bypass, defocussing (qdbp). A hybrid permanent magnet driven by strontium ferrite bricks. |
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Recycler Quadrupole Magnet, bypass, focussing (qfbp). A hybrid permanent magnet driven by strontium ferrite bricks. |
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Recycler permanent magnet arc sextupoles Jim Volk designer and builder
[These will be measured at MTF, but E&F should not have any contact with them.]
- Dave Harding .
Steve Wesslin of Beams Div has the drawings the Assembly drawing number is 8120.000-MD-341895.
There is also a 6 inch ID version coming with Assembly dwg 8120-MD-341922. These magnets are for the Recycler to be installed at 327, 328, and 329 region and at 213, 214 and 215
These magnets have to clamp around the beam pipe. So they are painted in two colors to identify the split lines. The A and B stand for the two halves If you go to ttp://home.fnal.gov/~volk/re-cycler/sextupole/ you will find a web page with jpegs of the areas and magnets and the PANDIRA input files. This area will contain more information as time goes on.
Hank Glass has the field requirements
- Jim Volk
So, we actually have three kinds of permanent sextupoles for the
Recycler. The desired strengths were not quoted with sufficient
specificity to ensure a correct design. I have here used a
self-consistent interpretation of the spec, which could be wrong. Note
that we have two different strengths constructed to the same assembly
drawing number, just as we have multiple strengths of Recycler
quadrupoles (MTF lists 29 different series) all built to the same
assembly drawing.
RSXP - 8120.000-MD-341895
slot length 11"
6" magnetic length
4.875" ID
outside width, height 8"
ferrite bricks
design strength:
153 G @ 1"
d2By/dx2 = 47.43 T/m^2
B2 = 3.61 T-m/m^2
used at locations 213 and 329
RSYP - 8120.000-MD-341895
slot length 11"
6" magnetic length
4.875" ID
outside width, height 8"
ferrite bricks
98 G @ 1"
d2By/dx2 = 30.38 T/m^2 design strength
B2 = 2.31 T-m/m^2
used at locations 214 and 328
RSZP - 8120.000-MD-341922
slot length 11"
6" magnetic length
6.375" ID
outside width, height 9"
Neodymium-Iron (Nd-Fe) bricks
160 G @ 1"
d2By/dx2 = 49.6 T/m^2 design strength
B2 = 3.78 T-m/m^2
used at locations 215 and 327
- Dave Harding |
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Permanent Magnet combined function gradient+dipole+s extupole for Recycler. Defocussing dispersion suppressor cell. Double bricks on top/bottom; no side bricks. |
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Permanent Magnet combined function gradient+dipole+s extupole for Recycler. Focussing dispersion suppressor cell. Double bricks on top/bottom; no side bricks. |
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Permanent Magnet combined function magnet for Recycler dispersion suppressor cells. Prototype of focussing magnet. |
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Reworked Switchyard 4-4-30 Venier Dipole, modified
by replacement of cooling fins with more effective versions, vacuum
impregnation of the coils, installation of field-shaping pole pieces to
reduce the gap to 4.00", and increasing the backleg to accommodate the
additional fin and insulation thickness. (DR's use VDP) |
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Random R&D magnet of unspecified type. Used for any generic issues. |
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Cable |
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Cable |
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Cable |
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Cable |
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High Field Magnet Dipole R & D. (DR's use HFM) |
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High Field Dipole Magnet R&D |
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Long Quadrupole Model |
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Superconducting RF Cryomodule 1.3 GHz, in principle for the International Linear Collier. Entered 06-Jun-2006 by J. Blowers. Cavity assembly drawing MD-440004.
Sub-series designations:
RFCA-CS → 1.3 GHz cavity string
RFCA-CM → 1.3 GHz coldmass assembly |
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Superconducting RF Cryomodule 3.9 GHz, in princple for the DESY XFEL project. Entered 06-Jun-2006 by J. Blowers. Cavity assembly drawing ME-426321.
Sub-series designations:
RFCB-HC → 3.9 GHz half-cell
RFCB-DB → 3.9 GHz dumb-bell
RFCB-CA → 3.9 GHz cavity assembly
RFCB-NS → 3.9 GHz niobium sheet
RFCB-CS → 3.9 GHz cavity string
RFCB-CE → 3.9 GHz Cold End Assembly
RFCB-OC → 3.9 GHz Outer Conductor Assembly
RFCB-WG → 3.9 GHz Waveguide Assembly |
||||
LARP 90mm Quadrupole using Fermilab collar design in the Magnet. TQQ## for Fermi Coil design. |
||||
High Field Quad Mirror |
||||
LARP 90mm Quadrople, new series, first practice quad. Coil is being made, 5/31/05,
LBL coils called TQQ## |
||||
270 degree (alpha) magnet for the PET accelerator system. The accelerator will be first assembled in Lab G before shipment to Louisiana. |
||||
Solenoid for the PET accelerator. The accelerator will be first assembled in Lab G before shipment to Louisiana. |
||||
PET HEBT Multipole Magnet from SAIC. |
||||
Type I Quadrupole Magnet for the PET accelerator system. The accelerator will be first assembled in Lab G before shipment to Louisiana. |
||||
PET Q3 Quadrupole Magnet for the PET acclerator system. |
||||
Trim Quadrupole Magnet for the PET accelerator system. |
||||
PET HEBT Quadrupole Magnet from SAIC. |
||||
Electron Cooling Magnet for Pelletron test at Madison NEC. See Dave Anderson for details. |
||||
P-Bar Source small quad, length A, used in Accumulator,beam lines, and (later) 8-GeV beamline. B-Stage Insulation. Same crosssection as other "small aperture quads" in P-Bar. |
||||
Antiproton Source Target Pulsed Magnet. ADPTC used for Cores. |
||||
Modified B-1 3.25" Gap 59.3125" Core Length for use in the P-Bar. (DR's use MDC) |
||||
Debuncher Extraction Kicker. Rebuild old kickers to accept larger aperture ceramic beam tube. Convert old serial number to 100 series (i.e., 001 is now 101). |
||||
TEV I Debuncher Septum Magnet. (DR's use SPT) |
||||
New design P-Bar Pulsed Septum Magnets. (DR's use SPT) |
||||
20" Bump Dipole for AP1 Beamline. |
||||
Accumulator Extraction Lambertson, known as ELAM in the P-Bar Source Department. We believe there were two made between 1985-86. Drawing ME-197820. Series designation created 10-Jun-2008 by J. Blowers and O. Kiemschies. |
||||
15 Ft. Large Aperature Dipole for TeV I Accumulator. |
||||
Accumulator Large Quadrupole for P-Bar Source Accumulator. Magnets rebuilt in 1986 with fewer turns. Serial numbers 101-107. 17.28" Effective Length. (DR's use LQX) |
||||
Accumulator Large Quadrupole for P-Bar Source Accumulator. 25.3" Effective Length. (DR's use LQX) |
||||
Accumulator Large Quadrupole for P-Bar Source Accumulator. 30.4" Effective Length. (DR's use LQX) |
||||
Accumulator Large Quadrupole for P-Bar Source Accumulator. 34.4" Effective Length. (DR's use LQX) |
||||
Large Quadrupole for P-Bar Source Debuncher. Originally prototype for Accumulator Large Quads, used at Debuncher injection/extraction points. 32" Effective Length????. (DR's use LQX) |
||||
Accumulator Large Quadrupole newly constructed for the lattice upgrade of 1998. Same cores as old LQC Magnets, but with fewer turns in the coil system. (DR's use LQX) |
||||
Modified B-1 Dipoles (5Ft.)
Different varieties will be listed as MDCA, MDCB, MDCC etc.
Established by Dave Harding 8/11/98 (DR's use MDC)
MDCF=59.31", MDCG=60", MDCE=60"
Used for all B-1 Modified DR's including all MDC variations and CDC Magnets. |
||||
Modified B-1 Dipole.
Has a 59.3" core, bolted together, pole face shims and end shims, coils insulated with B-Stage epoxy resin glass tape, and manifolded with orange hose. (DR's use MDC) |
||||
Modified B-1 Dipoles (5Ft.)
60.0" Welded magnet that was once in the AP4 line. (DR's use MDC) |
||||
Modified B-1 Dipoles (5Ft.)
Different varieties will be listed as MDCA, MDCB, MDCC etc.
Established by Dave Harding 8/11/98 (DR's use MDC)
MDCF=59.31" |
||||
Modified B-1 Dipoles (5Ft.)
Different varieties will be listed as MDCA, MDCB, MDCC etc.
Established by Dave Harding 8/11/98 (DR's use MDC)
MDCG=60" |
||||
TeV I 8" AR Trim Dipoles. |
||||
TeV I 20" Trim Dipoles. |
||||
TeV 1 20" Dipole magnet with a 1" thick x 2.5" steel bar added between the magnet parting plane to increase the apperature. This becomes a wide gap Debuncher Trim Magnet |
||||
TeV I Sextupole Correction Magnets. |
||||
Original Orange P-Bar Pulsed Septum Magnets. (DR's use SPT) |
||||
Quadrupole Magnet. |
||||
P-Bar Source 15-foot Accumulator Small Aperture Dipole. |
||||
P-Bar Source 10-foot Accumulator Small Aperture Dipole. |
||||
P-Bar Source 5-foot Accumulator Small Aperture Dipole. |
||||
P-Bar Source 66-inch (65.34") Small Aperture Dipole. |
||||
P-Bar Source 98-inch Small Aperture Dipole. |
||||
P-Bar Source 98-inch Wide Aperture Dipole.
(ME-210467 is a 3/4 inch increase) |
||||
6-3-120 Dipole Magnet.
Any new modifications to this device will use SDFB per Dave Harding 12/21/99. |
||||
The SDFB is a 6-3-120 dipole refurbished and modified for use in the MiniBooNE and NuMI beam lines. Modifications to the original 6-3-120 design (of which there are two versions with quite different bus work) include replacing the brazed copper water manifold with a welded stainless steel manifold, milling 0.030 inch from the inside of the back legs to allow a better fit of the coil, painting the coils and cores with epoxy for water resistance, adding a layer of KAPTON between the coil and core for improved insulation, and adding support and alignment pads to all four sides of the magnet. |
||||
Originally built as 6-3-120 magnets. SDF 'W' designates 'wide gap'. Magnets were modified by adding 1" spacer in between the half cores increasing the beam tube apperature to 6" wide by 4" high. Upper and lower coil packages are also had spacers installed between the two saddle coils. Minor adjustments were completed to extend the bus work. |
||||
30" C Magnet Accumulator Extraction Channel. The magnet is drawing number ME-197846, and the coil is drawing number ME-197890. |
||||
The SMA (Multipole) has windings for both sextupole and octupole which can be powered independently. The poles are slotted to accept a distribution of wires that produce the desired field profile. Noticeable 24-pole from slot structure. Multipoles with Octopoles with solid conductor carry the Magnet Serial Designation SMA0XX. Mulitipoles with Octopoles with hollow (water cooled) conductor carry the Magnet Serial Designation SMX1XX. Also called Multipole 4-12.5-5 Sextupole/Octupole Magnet. Print Library Book MLP Book 1 of 1. (DR's use MPX) |
||||
P-Bar Source small quad, length B, used in Accumulator, Beamlines. B-Stage Insulation. Same crosssection as other "small aperture quads" in P-Bar. |
||||
P-Bar Source small quad, length C, used in Debuncher, Accumulator, and beam lines. B-Stage Insulation. Same cross-section as other "Small Aperture Quads" in P-Bar. Serials 001-022 have an inferior pole tip and must only be used in beam lines. Serials 101-206 are the standard. Serials 301-319 have the same core but slightly longer coils than the standard, but are otherwise interchangeable. |
||||
P-Bar Source small quad, length D, used in Accumulator, Beamlines. B-Stage Insulation. Same crosssection as other "small aperture quads" in P-Bar. |
||||
P-Bar Source small quad, length E, used in Accumulator, Beamlines. B-Stage Insulation. Same crosssection as other "Small Aperture Quads" in P-Bar. |
||||
P-Bar Source Small Quad, 48" prototypes, B-Stage Insulation. Same crosssection as other "small aperture quads" in P-Bar. 001 and 002 have various beveled end packs, 003 has removable nibbled ends. |
||||
Skewed Sextupole Magnet (SSS) which has it's SSS feet removed. Magnet is rotated, then a new slide base is installed. Magnet has no mofications to the power or water manifold. |
||||
Accumulator Skew Sextupole. These are not expected to be reused in either the Main Injector or Recycler. |
||||
150 Gauss Solenoid. 12.250" O.D. X 16.748" Long. .085" X .280" conductor. Main Solenoid is 6 layers X 165 turns. End Solenoids are 4 layers X 26 turns. Total number of turns: 104/End Solenoid X 2 = 208 + 990 turns/Main Solenoid = 1198 turns continuous wound coil. Total Weight: 235 lbs. Coil is impregnated. Device weight is 300 lbs. Finished 5/31/02. Budget Code: NED Project Code: BD0172 Requestioner: Tom Dombeck. |
||||
Similar to a BDM-style B2, but with the addition of power flags and tighter tolerances for beam tube length, distance from flange to core, and flange perpendicularity. (DR's use B2A) |
||||
Fermi Injector Horizontal Trim Dipole Air Cooled 4-terminal magnet. Roll magnet 90 degrees, install new support plates, add a parting plane spacer (MB-388514) and a beam tube assy (MB-388492). (DR's use MIT) |
||||
Main Injector Horizontal Trim Dipole Water Cooled 4-terminal magnet. Add a beam tube assy (MB-388491) and a cooling plate. (DR's use MIT) |
||||
Main Injector Horizontal Trim Dipole Water Cooled 4-terminal magnet. Roll magnet 90 degrees, install new support plates, add a parting plane spacer (MB-388514) and a beam tube assy (MB-388492) and a cooling plate. (DR's use MIT) |
||||
Main Injector Horizontal Trim Dipole Water Cooled 4-terminal magnet. Roll magnet 90 degrees, install new support plates, add a beam tube assy (MB-388491) and a cooling plate. (DR's use MIT) |
||||
Main Injector Horizontal Trim Dipole Water Cooled 4-terminal magnet. Install a parting plane spacer (MB-388514) and a beam tube assy (MB-388492) and a cooling plate. (DR's use MIT) |
||||
Main Injector Horizontal Trim Dipole Air Cooled 4-terminal magnet. Roll magnet 90 degrees, install new support plates and a beam tube assy (MB-388492). (DR's use MIT) |
||||
Main Injector Horizontal Trim Dipole Air Cooled 4-terminal magnet. Install a parting plane spacer (MB-388514) and a beam tube assy (MB-388492). (DR's use MIT) |
||||
3Q120 Beamline Quadrupole. This is an original style 3Q120. Core - 13"X17", Coil - Solid, Beam Tube - Round, 8 Fin Version Aluminum. Reworked for NuMI.
(DR's use 3QX) |
||||
ADC reworked for NOvA by adding a 0.620" laminated spacer at the parting plane |
||||
Next Linear Collider RF Structure with FWG Couplers. 29.722 Inches overall length. Approximate weight 200 lbs. |
||||
FXC RF Structure w/FWG Couplers 32.100" |
||||
NLC RF Structure |
||||
NLC RF Structure |
||||
This Magnet Series is assigned for Tevatron Spools not constructed but sequential numbers were generated and skipped. These placeholders are required for the OnBase Device Service Record System only.
DO NOT USE!
Other Never Built Series Prefixes are TZ - Tev Dipoles and TY - Tev Quadrupoles. |
||||
This Magnet Series is assigned for Tevatron Quadrupoles not constructed but sequential numbers were generated and skipped. These placeholders are required for the OnBase Device Service Record System only.
DO NOT USE!
Other Never Built Series Prefixes are TZ - Tev Dipoles and TX - Tev Spools. |
||||
This Magnet Series is assigned for Tevatron Dipoles not constructed but sequential numbers were generated and skipped. These placeholders are required for the OnBase Device Service Record System only.
DO NOT USE!
Other Never Built Series Prefixes are TY - Tev Quadrupoles and TX - Tev Spools. |
||||
Fermilab Electron Cooling Ring Quadrupoles.
David Harding wrote:
The magnet was designed and built for the Electron Cooling Ring, a machine that was built in the early 1980's and subsequently decommissioned. The magnet MIGHT be used in the Recycler, and has been considered for any of a number of other uses. There are currently two of them in the Accumulator. I'd say Electron Cooling Ring. I don't have an assembly drawing number, but I'd guess that it was a Beams Division project. Several of these magnets were loaned to Argonne, who painted them and (I think) added some support structures.
-Dave
Accelerator System was Electron Cooling Ring changed to MiniBoone per Denny Gaw 8/4/00. |
||||
Reworked HDC Magnet (HDC is a reworked MR Trim Dipole) by adding a .600" CRS parting plane spacers, G-10 Coil support spacers, to increase the pole tip aperature. HDWA's retain the HDC Magnet serial numbers as HDWA's can be converted back to HDC with the removal of the parting plane spacers. (DR's use MIT). |
||||
LEP Quadrupole. Built by BBC ((Brown Boveri) |
||||
LEP Quadrupole. Built by Arriere Equipe |
||||
3Q60M Beamline Quadrupole. This is a modification of the 3Q60M. Date 2000, Core - 13"X17", Coil - Solid (8 fins), Beam Tube - Round. Reworked for NuMI/MiniBooNE.
(DR's use 3QX) |
||||
3Q120M Beamline Quadrupole. This is a modification of the 3Q120M. Date 2000, Core - 15"X17", Coil - Solid, Beam Tube - Round, 12 Fin Version. Reworked for NuMI/MiniBooNE.
(DR's use 3QX) |
||||
4-4-30 Vernier Dipole Magnet. TDTA Vernier Dipole is a water cooled (using copper fins inside the coils), solid conductor coils magnet. TDTA is called a 'MARK I', as defined in Dwg 2920-MD-30012. Mark I has spacers (Plate 'A") of 4.4" high, which defines the inner core cavity. Vernier magnets can be called 'Mark I to Mark V', as defined by their core (Plate 'A") height.(DR's use TDT) |
||||
4-4-30 Vernier Dipole Magnet. TDTB Vernier Dipole is a water cooled (using copper fins inside the coils), solid conductor coils magnet. TDTB is called a 'MARK II', as defined in Dwg 2920-MD-30012. Mark II has spacers (Plate 'A") of 4.4" high, which defines the inner core cavity. Vernier magnets can be called 'Mark I to Mark V', as defined by their core (Plate 'A") height.(DR's use TDT) |
||||
4-4-30 Vernier Dipole Magnet. TDTC Vernier Dipole is a water cooled (using copper fins inside the coils), solid conductor coils magnet. TDTC is called a 'MARK III', as defined in Dwg 2920-MD-30012. Mark III has spacers (Plate 'A") of 4.731" high, which defines the inner core cavity. Vernier magnets can be called 'Mark I to Mark V', as defined by their core (Plate 'A") height.(DR's use TDT) |
||||
4-4-30 Vernier Dipole Magnet. TDTD Vernier Dipole is a water cooled (using copper fins inside the coils), solid conductor coils magnet. TDTD is called a 'MARK IV', as defined in Dwg 2920-MD-30012. Mark IV has spacers (Plate 'A") of 5" high, which defines the inner core cavity. Vernier magnets can be called 'Mark I to Mark V', as defined by their core (Plate 'A") height.(DR's use TDT) |
||||
4-4-30 Vernier Dipole Magnet. TDTE Vernier Dipole is a water cooled (using copper fins inside the coils), solid conductor coils magnet. TDTE is called a 'MARK V', as defined in Dwg 2920-MD-30012. Mark V has spacers (Plate 'A") of 8" high, which defines the inner core cavity. Vernier magnets can be called 'Mark I to Mark V', as defined by their core (Plate 'A") height.(DR's use TDT) |
||||
Fermilab Build Prototypes of SSC Medium Energy Booster Dipole |
||||
Main Ring dipoles for locations near the horizontal focusing quadrupoles. Approx. 240" long. 1.5" high by 4" wide aperture. Two varieties exist with inner coils bent up or bent down. These are also called B1 dipoles and 1000 series and 1500 series. |
||||
200 Turn Main Ring Extraction Bump Magnet. |
||||
Main Ring Dipoles for locations near the vertically focusing quadrupoles. Approximately 240" long. 2" high by 4" wide aperture. Two varieties exist with inner coils bent up or bent down. These are also called B2 Dipoles and Lower 2000 Series (ME-351435) and Upper 2500 Series (ME-351417). Same as BDN but no structure. Also known as FMI B2's or 150 GeV Magnets. (DR's use B2A) |
||||
Main Ring Dipoles for locations near the vertically focusing quadrupoles. Approximately 240" long. 2" high by 4" wide aperture. Two varieties exist with inner coils bent up or bent down. These are also called B2 Dipoles and Lower 2000 Series (ME-351487) and Upper 2500 Series (ME-351488). Same as BDM but has support structure. Also known as Remnant B2's. (DR's use B2A) |
||||
Main Ring B2 Style Magnet. (DR's use B2A) |
||||
4000 Series or 4 foot (sic) quadrupoles for matching sections of Main Ring Lattice. Also used in various beamlines.
(DR's use MIQ) |
||||
The 7000 Series or 7 foot quads for the regular cells of the Main Ring lattice. Also will be used in regular cells of Main Injector Lattice.
(DR's use MIQ) |
||||
2XB2 Main Ring B2 dipole cores with alternate coils, twice as many turns as a B2 (BDM,BDN). |
||||
Main Ring Horizontal Trim Dipole. Air cooled. 4-terminal. Many are being cleaned up for the Main Injector. Some for the Recycler.
(DR's use MIT) |
||||
Main Ring Double Strength Horizontal Trim Dipole.
(DR's use MIT) |
||||
F17 Dipole C-Magnet 1.6-4-118.4 |
||||
A rework of the 4000 Series or 4-foot (sic) Quadrupoles for matching sections of Main Ring Lattice. Also used in various Beamlines.
(DR's use MIQ) |
||||
F17 Lambertson |
||||
Main Ring Octupole Corrector. Many (66) of these will be reused in the Main Injector. (DR's use MIT) |
||||
Main Ring Skew Quadrupole. Some will be reused in the Main Injector and Recycler. (DR's use MIT) |
||||
Main Ring Trim Quadrupoles. Some will be reused in the Main Injector and the Recycler. (DR's use MIT) |
||||
Main Ring Sextupole. Some will be reused in the Recycler. (DR's use MIT) |
||||
Skewed Sextupole Trim Magnet. (DR's use MIT) |
||||
Overpass Dipole |
||||
Main Ring Overpass Dipole Magnet 3" X 5" or 3000 Series. Also know as B3 Dipole. (DR's use ODM) |
||||
Main Ring Vertical Trim Dipole. Air-cooled. 4-terminal magnet. Many are being reworked for Main Injector Beam Lines and Recycler.
(DR's use MIT) |
||||
Main Ring Horizontal Trim Dipoles (HDC) with supports to hold them rotated to correct vertically in Booster to Main Injector Beamline. Air-cooled. 4-terminal.
(DR's use MIT) |
||||
ICA is based on the F17 C-Magnet built for Tev I, but longer and designed to be impregnated. Beam tube wall 0.065". 4-terminal magnet: series power, parallel water. FMI 132" C-Magnet (DR's use MIC) |
||||
240" Main Injector Dipole (6 meter) (DR's use MID) |
||||
240" Main Injector Dipole (6 meter) (DR's use MID) |
||||
160" Main Injector Dipole (4 meter) (DR's use MID) |
||||
160" Main Injector Dipole (4 meter) (DR's use MID) |
||||
Main Injector Horizontal Trim Dipole Air cooled 4-terminal magnet.
(DR's use MIT) |
||||
Main Injector Horizontal Trim Dipole Air cooled 4-terminal magnet. Magnetic Plates added. Plate dwg number: MB-388936 (1 ea), MA-388938 (2 ea), MA-388937 (1 ea).
(DR's use MIT) |
||||
240" Main Injector Dipole SCS-082289-0830 Ref MIDIP1
(DR's use MID) 160" A - ME 274607 B - ME 274606 |
||||
1-meter Main Injector Reference Dipole. |
||||
Main Injector Vertical Trim Dipole. Air cooled. 4-terminal magnet.
(DR's use MIT) |
||||
Main Injector Lambertson Magnet, also used in the NuMI System.
(DR's use MIL) |
||||
Prototype Lambertson. Symmetric at one end, asymetric at other end. Multiple reworks consisting of mods to the ends are expected. |
||||
84 inch Main Injector Quad. Main Ring Quad lamination. Conductor has large hole. Trim coil added (16 turn/pole). Potted Magnets are serial numbers less than 100 and Potted Coils are serial numbers greater than 200.
(DR's use MIQ) |
||||
100 inch Main Injector Quad. Main Ring Quad lamination. Conductor has large hole. Trim coil added (16 turn/pole). Potted Magnets are serial numbers less than 100 and Potted Coils are serial numbers greater than 200.
(DR's use MIQ) |
||||
116 inch Main Injector Quad. Main Ring Quad lamination. Conductor has large hole. Trim coil added (16 turn/pole). Magnet Serial Numbers starting with IQD254 will reflect a new 'potted coil' system instead of the original 'potted magnet' system. Potted Magnets are serial numbers less than 100 and Potted Coils are serial numbers greater than 200.
(DR's use MIQ) |
||||
A rework of the 84 inch Main Ring Quad. This is distingquished from the IQB and BQB by its vacuum configuration.
(DR's use MIQ) |
||||
A rework of the 84 inch Main Ring Quad. This is distingquished from the IQB and BQB by its vacuum configuration.
(DR's use MIQ) |
||||
A rework of the 84 inch Main Ring Quad. This is distingquished from the IQB and BQB by its vacuum configuration.
(DR's use MIQ) |
||||
A rework of the 84 inch Main Ring Quad. This is distingquished from the IQB and BQB by its vacuum configuration.
(DR's use MIQ) |
||||
A rework of the 52" Main Ring Quadrupole. Same as a IQA type magnet with bellows/flanges removed and no new bellows/flanges installed. (DR's use MIQ). |
||||
MainInjector sextupole. Asymmetic (top/bottom poles closer than sides).
(DR's use MIS) |
||||
3Q120M Beamline Quadrupole. This is a modification of the 3Q120M. Date 2000, Core - 15"X17", Coil - Solid, Beam Tube - Round, 8 Fin Version. Reworked for NuMI/MiniBooNE.
(DR's use 3QX) |
||||
Recycler 50 OHM Horizontal ANU Kicker Magnet |
||||
Fermi Main Injector Wide Aperature Quadrupole |
||||
Main Injector Core-less Quadrupole for modulating slow spill extraction (Maybe refered to as a QXR). |
||||
Ion Production Facility (IPF) 22 Degree Kicker (IPF). Los Alamos< New Mexico |
||||
Los Alamos Permanent Quadrupole. |
||||
45 Deg. Gantry Dipole. |
||||
Dipole |
||||
18" 95 Deg. Switching Dipole |
||||
45 Deg. Dipole |
||||
135 Deg. Dipole |
||||
3.25 Quadrupole. Built for 400 MeV Transfer Line Upgrade. Built by Everson Electric Co, Bethelehem, PA |
||||
Loma Linda Sextupole Magnet with Dipole Corrector Winding. |
||||
HINS prototype solenoid cryostat assembly. Similar to HCHA (type 1) and HCHB (type 2) styles, but not exactly like either one. The prototype is serialized HCH-P-001. |
||||
High Intensity Neutrino Source CH Section Solenoid Cryostat Type -1. Type-1 does not include dipole correction element(s). Solenoid cold mass drawing is ME-442963. |
||||
High Intensity Neutrino Source CH Section Solenoid Cryostat Type-2. Type-2 includes dipole correction element(s). Solenoid cold mass drawing is ME-442964. |
||||
"Short" C-Magnet for MuCool, to be installed in the Linac. Built by Everson Tesla Incorporated. Delivered to FermiLab October 2007. Weight 468 lbs (labeled 500 lbs) |
||||
"Long" C-Magnet for MuCool, to be installed in the Linac. Built by Everson Tesla Incorporated. Delievered to FermiLab October 2007. Weight 1252 lbs (labeled 1300 lbs). |
||||
Side Coupled Linac (High Energy) Focusing Quadrupole. Originally called LQ2 which the LQ part reflects to closely to the P-Bar LQ (Large Quadrupole) designation. It was decided to re-designate them to fit the more present model of magnet designation. See LQ2 series designation. Bob Jensen 2/3/2009. |
||||
Side Coupled Linac (High Energy) Focusing Quadrupole. Originally called LQ2 which the LQ part reflects to closely to the P-Bar LQ (Large Quadrupole) designation. It was decided to re-designate them to fit the more present model of magnet designation. See LQ2 series designation. Bob Jensen 2/3/2009. |
||||
Side Coupled Linac (High Energy) Focusing Quadrupole. See Series LNQA and LNQB. E-mail from TJ Gardner of 1/29/2009. From books and data John Zweibohmer had, I was able to compile the following on the seven magnets currently in IB#2:
Item 137 (M89029 & M90876) Design (drawing 274089) and build (1) prototype magnet ~1989-1990 (white coils)
Item 175 (M?) Design (drawing 274495) and build (1) prototype #2 magnet ~1990-1991 (yellow coils)
Item 176 (M91014) Produce (32 + 3 spare) magnets ~1991-? (yellow coils)
Both prototypes had poor harmonics due to welding the 1/4 cores near the parting plane leg. It is unclear if additional welds were made on the pole extension.
All magnets have left and right wound coils as evident by the power lead input to each coil package.
There is a 7th coil-core assembly which was used as a load (choke) and records refer to this. It also had welded cores and thus poor harmonics.
TJ |
||||
Feedboxes for the LHC inner triplet magnets. Design by LBNL, with assistance from FNAL. Fabricated by Meyer Tool. They were given another level of designation based on the placement:
DFBXA: DFBX Left of IP1 (LBNL drawing 24C351)
DFBXB: DFBX Right of IP1 (LBNL drawing 24C350)
DFBXC: DFBX Left of IP2 (LBNL drawing 24C352??)
DFBXD: DFBX Right of IP2 (LBNL drawing 24C362)
DFBXE: DFBX Left of IP5 (LBNL drawing 24C394)
DFBXF: DFBX Right of IP5 (LBNL drawing 24C395)
DFBXG: DFBX Left of IP8 (LBNL drawing 24C352)
DFBXH: DFBX Right of IP8 (LBNL drawing 24C362) |
||||
Q1 inner triplet quadrupole for the CERN LHC. It consists of a coldmass (MQXA) from KEK and a correction magnet (MCBX) from CERN. This magnet was cryostated by Technical Division. |
||||
Q2 inner triplet quadrupole for the CERN LHC. It consists of two coldmasses (MQXB) fabricated by Technical Division and a correction magnet (MCBX) from CERN. This magnet was cryostated by Technical Division. |
||||
Q3 inner triplet quadrupole for the CERN LHC. It consists of a coldmass (MQXA) from KEK and two correction magnets (MCBXA and MQSXA) from CERN. This magnet was cryostated by Technical Division. |
||||
Large Hadron Collider Magnets for CERN. (DR's use HGQ) |
||||
MuCool Helical Solenoid |
||||
Main Injector Kickers and Extraction Pulse Forming Line Assy w/Cable. Use Frame Assembly ME-142499 |
||||
48" Sweeper Magnet for Wide Band Photon Beam. With LDA Laminations and Backleg Shims. |
||||
108" Sweeper Magnet for Wide Band Photon Beam. |
||||
Electron Cooling Ring Dipole. Has a certain family resemblance to the CQA. |
||||
Steering coils for the Electron Cooling Solenoid ECPB. |
||||
Electron Cooling Solenoid Style B. First four Solenoids made this way, found to be unusable using ECPA Steering Coils. New Magnet series for next design is ECPC. |
||||
Electron Cooling Gun Solenoid Style C. This Solenoid uses Prefabricated Flexible Steering Coils. |
||||
Used for DR's prior to MID and MIQ being established for DR use. (DR use only)
IN-ACTIVE DON'T USE! |
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B2 Dipoles includes Beam Line Magnet BDB, Reference B2 BDF, FMI BDM, Remnant B2 BDN (DR use only) |
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BCDA, BCDB C Pitcher Dipole (DR Use Only) |
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Compact Muon Solenoid Project Components. See AGE, ME1/2, ME2/1, ME1/3, ME3/1, ME4/1, or ME234/2 (DR use only) |
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High Field Magnet Project (HFMDA). (DR use only) |
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For CERN Large Hadron Collider (MQXB - LHC CERN, HGQ - Fermi R&D). (DR use and Fermi R&D model Magnets only) |
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For all Lambertsons not Main Injector (DR use only)
Tevatron 6" Symmetrical Lambertson. SLA
Main Ring 8 GeV Injection Lambertson. MLA, MLB
6" Symetrical Lambertson, Horizontal was 6SL. TLS
Switchyard Lamberston. MLC
8 Gev Injector Lambertson LAM |
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Large Quadrupole LQA, LQB, LQC, LQD, LQE, LQF (DR use only)
Also has been used as a prefix to test a Loma Linda Magnet, no description of this device was found in MTF old VAX database. |
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FMI 132" C-Magnet ICA (DR use only) |
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FMI 160/240" Dipole IDA, IDB, IDC, IDD (DR use only) |
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FMI Lambertson ILA (DR use only) |
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FMI Quadrupole BQA, BQB, BQT, IQA, IQB, IQC, IQD, IQE, IQF, IQG, IQH,4XXX,7XXX (DR use only) |
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FMI Sextupole ISA (DR use only) |
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FMI Trim Magnets IDH, IDV, HDC, HDD, HDR, VDC, MOA, MQT, MQS, MSA, MSS etc (DR use only) |
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Multipole (DR use only). SMA |
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OrBump Magnet special R&D. Only 1 manufactured. (DR use only) |
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Supreconducting Dipole TB, TC, TD |
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Supreconducting Quadrupole B13, N13, N23, N54 |
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For Tevatron Spools. |
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For use 6-3-120 Dipoles SDA, SDB, SDC, SDD, SDE, SDEW, SDF, SDFB, SDG, SDT |
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All Septum DR's. DSM, DSMB, PSMA. Pulsed Septum Magnet. It serves very much the same function as a C Magnet or a Lambertson. (DR Use Only) |
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Small Quadrupoles SQA, SQB, SQC, SQD, SQE, SQF etc (DR use only) |
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Reworked Switchyard 4-4-30 Venier Dipole. (DR use only) |
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CMS - Endcap Muon Chamber Aging Test. (DR's use CMS) |
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Return Boxes X Series. Boxes provided for testing (flow & hydro) by PPD (Riley Foltz). Boxes used in CMS Chambers. Several version have been tested. Original RBX. Then HE RBX, then HE RBX Revision A. |
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HO RBX |
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CMS - Muon Chamber. Formerly P4 (DR's use CMS) |
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CMS - Muon Chamber. Fromerly P6 (DR's use CMS) |
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CMS - Muon Chamber. Formerly P3 (DR's use CMS) |
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CMS - Muon Chamber. Formerly P2 (DR's use CMS) |
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CMS - Muon Chamber. Formerly P5 (DR's use CMS) |
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CMS - Muon Chamber. (DR's use CMS) |
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Endcap Muon Chamber (Aging Test) |
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C Pitcher Dipole Magnet. Also known as DMP2. (DR's use BCD) |
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C Pitcher Dipole Magnet. Also known as DMP3. (DR's use BCD) |
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(DR's use BCD) |
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Booster 'C' Extraction Magnet. 0.4096" x.299 Hole water cooled conductor. Pancake wound coil, 8 turns wide x 12 turns high. Solid low carbon steel core consisting of a steel core within the center of the coil, with two outer plates, and two pole tips which capture the beam tube. |
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Booster Dog-Leg Magnets. Coils and core are water cooled. (DR's use BDL) |
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Booster Dog-Leg Magnets. BDLA is a variation of the BDL. See BDL. BDLA Coil Insulation removes the kapton/fiberglass insulation system, and uses on fiberglass. Coil Assembly jumpers the water flow, making the coil assembly a series configuration versus the BDL using a parallel flow configuration. Cores will not have the external cooling plates. |
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Booster Dog-Leg Magnet pair. See remark for series BDL. This is two BDL Magnets in tandem. (DR's use BDL) |
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B is for Booster and Boone, K is for Choke, and A is for prototype.
Miniboone Choke |
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Booster Extraction Kicker Magnet. Series started in October 2005. This version of kicker was built to the ME-400700 drawing, but used the "old" mandrel (i.e. smaller aperture and round beam tube; AD drawing of mandrel MC-394325). These magnets were built using the old mandrel in order to quickly make more spare magnets. |
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Booster Extraction Kicker Magnet. Series started in October 2005, and the 'D' is to designate that there have been a few different versions of this magnet in the past. This design is based on an AD design, from drawing 0350.090-ME-70855. We also note that the revision 'none' TD drawings show the series to be BFKM. |
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BMA - Booster Correction Package, Coil #1, Assembly. Coil # 1 has 5 sections. 16 of the Coil #1 will be part of the Booster Multipole Magnet. Booster Correction Package, Coil #3, Assembly. Coil #3 has 3 sections, 8 of the Coil #3 will be part of the Booster Multipole Magnet |
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Booster Pulsed Extraction Septum
Original Design is the BSE0XX
New Design is the BSE1X
- Matt Cullen |
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Booster Dipole. Cooling Ring Dipole, Blue, Welded or bolted. |
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Booster EDWA 5.3 - 2 - 120" Dipole Magnet. Coils are two layer using 0.635" square copper w/0.250" water passage hole. Coil Assemblies consist of 3 two layers coils insulatated and impregnated together. Upper and Lower Coil Assemblies differ only in the placement of electrical bus work. Cores are machines from solid steel with a sagitta. Magnet is bolted together w/a beam tube matching the sagitta of the solid steel cores. DR's use EDWA. |
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Jim Zagel "Bump" Magnets for special tests in the Booster. |
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Jim Zagle Middle Magnet for special test in the Booster. |
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Booster OrBump Magnet. Per Dave Harding e-mail of 9/1/04. After consulting with Jim Lackey, I hereby declare that the series designation for the new ORBUMP magnets will be ORBD, the D acknowledging that these are at least the fourth generation of magnets to serve this function. |
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Booster Transition Jump (Gamma-T) Quadrupole. Karl Koepke Quadrupole |
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Pulsed Quad Defocussing (Gamma-t Jump) |
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Booster Transition Jump (Gamma-T) Quadrupole. Karl Koepke Quadrupole |
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Pulsed Quad Focussing (Gamma-t Jump) |
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Gradient Magnet Manifold Block SAMA (Stand Alone Manifold Version A) Job 425 6 units made. Units made of an Upper and Lower Manifold with G-10 Insulator Tubes between copper tubing. Upper and Lower tubes then assembled into a potting mold, filled with glass beads and impregnated with BMA formula epoxy. |
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Manifold for Booster Chokes |
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Booster Short Straight Sextupole. |
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400 MeV Transfer Line Lambertson. One was built using MD-299635 |
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200 MeV Quadrupole |
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Green quad from 200 MeV line used in 400 MeV line. Square solid machined yoke built by High Voltage Engineering Corp. Air cooled. Version of the TQT. AD drawings |
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Green quad. 200 MeV line, now 400 MeV line. Rounded octagonal cast steel yoke with bolt-on poles. Yoke is water cooled. Version of the TQT. AD drawings |
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Beam Line Magnet - Uses Main Ring B1 (ADM) laminations and copper to make a 10 foot long beamline dipole. |
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A 5-foot dipole originally used in the Booster to Main Ring line. Referred to (with others) as a 5'-B1, though the details of the lamination differ from the B1 dipoles used in the Main Ring. |
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Trim Quadrupole Magnets produced by Professor James Rosenweiz, UCLA Department of Physics. Magnet Serial Numbers #098, #100, #102 & #111 rec'd. Magnet weight 38 lbs. |
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Beam Line Magnet - Uses Main Ring B2 (BDM) laminations and copper to make a 10 foot long Beamline Dipole. (DR's use B2A) |
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Beam Line Magnet - Usually called EPB Dipoles, see e.g. Fermilab TM-434.
We called the EPB (External Proton Beam) dipoles that we reworked for Main Injector "EDB" because MTF had called them that any years ago. Per email from Dave Harding 2/29/00. |
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The EPB dipoles for NuMI have a sufficiently different bussing design (they are a four terminal magnet - two leads at each end) that they justify a different series designation. We have agreed on EDBB. Per email from Dave Harding 2/29/00. |
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Modified from an EDBB NUMI Dipole magnet. Manifold is updated by removing the manifold and ceramic insulators and installing a new manifold with PEEK Insulators. |
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2-way split Lambertson type 'MA', used in external beamlines
Lamination drawing: 0525-24308 position #1
Lamination modification drawings: 0525-MD-24601, 24616, 24618
(1973 Accelerator Division assembly drawing is 0525-ME-24651) |
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2-way split Lambertson type 'MB', used in external beamlines
Lamination drawing: 0525-24309 position #2
Lamination modification drawings: 0525-MD-24606, 24615, 24617
(1973 Accelerator Division assembly drawing is 0525-ME-24653) |
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Dipole created by modifying 6-3-120 dipoles using a 3"" back-leg shim. First built in 1995 for Neutrino Production Beamline of E815. |
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These Quadrupoles are known to Fermilab Research Division as 8Q32's. They were fabricated for Argonne (ANL) |
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Booster Kicker |
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Small Permanent Dipole magnet for NoVA/ANU the Recycler injection line. |
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3Q120I Beamline Quadrupole. This is a modification of the 3Q120I with eight (8) parallel water paths (manifold mounted on the 15" (narrow) side, and with coils potted in the core rather than B-Staged. Date 1995, Core - 15"X17", Coil - Hollow, Beam Tube - Round.
(DR's use 3QX) |
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3Q60I Beamline Quadrupole. This is a modification of the 3Q60I with eight (8) parallel water paths (manifold mounted on the 15" (narrow) side, and with coils potted in the core rather than B-Staged. Date 1995, Core - 15"X17", Coil - Hollow, Beam Tube - Round.
(DR's use 3QX) |
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Core Length 55 14". Beam Tube Flange 6". Core - 13" x 17", Coil - Solid, 8 fins (Odd Coil), Beam Tube -Star. (DR's use 3QX) |
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3Q120A (Tev I) Date - 1984, Core - 15" X 17", Core - Hollow, Sixteen (16) water paths with the manifold mounted on the 17" (wide) side. Magnets built with either round or star shape beam tube.
(DR's use 3QX) |
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Beam Line Magnet - two series - one created in 1970's, the second as part of TeV II in 1984. Always known as 4Q120. Different manufactureres: Industrial Coil Incorporated, Middleton, MA; Fermilab. |
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Wide Band Photon Beam 42" Long Tev I SD Lams - Shim Wide Gap. |
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Argonne Sychrotron Light Source Quadrupole. Built at Argonne but Tested at Fermilab. |
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3Q120A Accelerator Quadrupole. Date 1980, Core - 13"X17", Coil - .4096" Hollow Copper, Beam Tube - Round. Eight (8) water paths with the manifold (8000-ME-119225) mounted on the 17" (Wide) Side of the magnet. Print Library Book BL Book 1 of 9.
(DR's use 3QX) |
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A Zero Dipole (Chicane Magnet), pole tips trapezoidal in shape. |
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4 Ft. Quadrupole in the 8 Gev Line Quadrupole before 1986. (DR's use MIQ) |
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Main Ring 8 GeV Injection Lambertson. The spare will be used for the Main Injector. Originally measured as LAM001. Has a center tap so 2 water paths per coil. Was known as LAM for a period of time. (DR's use LMB) |
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Main Ring 8 GeV Injection Lambertson. Same as ME-225485 (MLA) except has fewer water passages and shorter field free region. The MLB has three water paths, one per coil, where the MLA adds a center tap to each coil to get two water paths per coil for a total of six. The core with the field-free region is extended on the MLA using the same lamination, while the bending region remains the same. 3 water paths one per coil. (DR's use LMB) |
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Permanent Magnet "Double-Double" dipole for 8 GeV Beamline. |
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Permanent Magnet combined function gradient+dipole for 8 GEV Beamline. |
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Prototype of Permanent Magnet Vertical Bend. |
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Permanent Magnet Vertical Bend for 8 GeV Beamline. |
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Have no idea found this designation in MTF old VAX database. If anyone has info about this device please contact Jan Szal X4572 jszal@fnal.gov or Dave Harding X2971 harding@fnal.gov. |
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Sextupole coil that is wrapped around a beam tube |