Magnet
[http://hallaweb.jlab.org/wiki/index.php/SoLID Return to SoLID main page
Contents
magnet candidate
CLEO-II
- www CLEO wikipedia, CLEO detector, coil, cryo pic
- publication NIM CLEO II detector(local copy) and IEEE paper focusing the magnet system (local copy)
- photos, documents and drawings
- Some direct links operation manual, all parts numbered 1,all parts numbered 2, coil collar
BaBar
- publication NIM BaBar detector(local copy), NIM fringe field study, Nuc.Phy.B coil
- photos, documents and drawings,
- some direct links field mapping, field simulation talk
talk and note
there are more talks at collaboration meeting page
study from 2016
Jay Benesch's note
https://solid.jlab.org/cgi-bin/private/ShowDocument?docid=2
study by 2012
SoLID magnet design
Comparing Magnet
Integral to the SoLID spectrometer design is a large solenoid. Several existing solenoids are under consideration by the collaboration. These include the magnets from Babar, Cleo, CDF and ZEUS
| Babar | CLEO | CDF | ZEUS | Custom | ||
|---|---|---|---|---|---|---|
| Cryostat Inner Radius | 150 cm | 150 cm | 150 cm | 86 cm | 100 cm | |
| Length | 345 cm | 350 cm | 500 cm | 245 cm | 230 cm | |
| Central Field | 1.49 T | 1.5 T | 1.47 T | 1.8 T | 2.68 T | |
| Compact Flux Return | Yes | Yes | No | No | Custom | |
| Current density variation (current/length) | Up and Downstream ends (25%) of coil have 2x current of central 50% | Up and Downstream ends (25%) of coil have 1.04x current of central 50% | No | 25% more current at ends | 50% more current at ends | |
| Magnet Map Update Date | 2011/4/6 | 2012/7/27 | 2011/4/6 | 2011/2/4 | 2011/6/21 | |
| Poisson input deck | BABARv4.am | CLEOv8.am CLEOv8.fce | CDFv4.am | ZEUSv1.am | SolCustv1.am | |
| Poisson SF7 output | BABARv4.sf7 | CLEOv8.sf7 | CDFv4.sf7 | ZEUSv1.sf7 | SolCustv1.sf7 | |
| grid info | grid size: 1cm, Rmin 0 Zmin -400, Rmax 400 Zmax 600, R and Z increments: 400 1000 | grid size: 1cm, Rmin 0 Zmin -600, Rmax 500 Zmax 600, R and Z increments: 500 1200 | grid size: 1cm, Rmin 0 Zmin -400, Rmax 400 Zmax 600, R and Z increments: 400 1000 | grid size: 1cm, Rmin 0 Zmin -300, Rmax 300 Zmax 475, R and Z increments: 300 775 | grid size: 1cm, Rmin 0 Zmin -400, Rmax 400 Zmax 600, R and Z increments: 400 1000 | |
| PDVIS target "designed" Location | z=+10 | z=+10 | z=+50 | z=0 | z=0 | |
| plot by Possion | ||||||
| plot by SF7toGEMCmap.C | ||||||
| Notes: (1) the center of the magnet is taken as the orgin. The target offset for the CDF magnet makes up for the fact that the magnet is longer than the Babar magnet. (2) The upstream pole pieces of the CDF and ZEUS magnets can be angles for SIDIS acceptance needs | ||||||
| Excel File to help make poisson input magnets.xlsx older magnets.xlsx older version | ||||||
version history
CLEOv8 update with realistic CLEO-II design and same magnet for both PVDIS and SIDIS
CLEOv6_PVDIS and CLEOv6_SIDIS update with CLEO separated yoke
CLEOv5 The CLEO yoke has been updated with more shielding at front end cup for fringe field and tweak end cup with a triangle piece to minimize fields in end cup.
BABARv4 has SIDIS endcap, PVDIS can fit but not optimized because the endcap nose doesn't extend long enough to the coil region.
Field Integrals for Baffles
Fields at fixed radius
Field integrals and ratios for the various magnets are shown above. The integrals assume a trajectory of 28° beginning at the center of the target. The efficiencies for the baffle designs scale with the field integral shown here.
Poisson Superfish Howto
How to produce the filed map
use program "Poisson Superfish" from LANL (home page), get it from direct link or local copy
- It's a windows program and need installation, it can run with wine in linux or winXP/win7
- see including manuals and examples for detailed help.
- We have been using v7.18, the latest v7.19 came out in 2013, but the change doesn't affect the program we are using, refer to changelog
Here is a quick summary of howto.
- input file ".am" is a text file with regions defined by ploycons.
- produce mesh by AUTOMESH.EXE with input from a ".am" file, output file will be ".T35" with only geometry and material
- use WSFPLOT.EXE to view the ".T35" file to verify the setup.
- then run POISSON.EXE with the ".T35" file which will be added with field.
- use WSFPLOT.EXE to view the ".T35" file with field
- then run SF7.EXE on the ".T35" file, do the field extrapolation for grid with desired ranges and steps, the result is in a txt file "OUTSF7.TXT" which includes a 2D field map.
- run SF7.EXE on the ".T35" file, do the field extrapolation for a line, arc or curve, besides "OUTSF7.TXT", a ".TBL" file is produced and can be directly viewed by TABLPLOT.EXE
- run FORCE.exe with input ".fce" which gives points in a region, the resulting "OUTFOR.TXT" gives the force on the region.
Field map input files
all files are at svn "database_io/solid/field/"
- "babar_transv_3_4.am" BaBar_magnet from_Eugene with center of solenoid at 600cm
- "BaBar_zwzhao.am" BaBar magnet files created by Zhiwen, based on Eugene's file but moved to the center of solenoid to origin
- "BABARv*.am" BaBar magnet
- "CLEOv*.am" CLEO magnet
- "CDFv*.am" CDF magnet
- "ZEUSv*.am" ZEUS magnet
Field map output files
located at Solid website http://hallaweb.jlab.org/12GeV/SoLID/download/field/
- sf7 files are direct output from poissonsuperfish program
- dat files are conversion from sf7 to GEMC format
refer to Magnetic_Field_Map
