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S teve S now. ATLAS Inner Detector Magnetic Field. I am responsible for providing the magnetic field map for the ATLAS Inner Detector. 6m long x 2m diameter cylindrical volume 2 Tesla (20000 Gauss) at Z=0, dropping to 0.8 T at Z=3m Defines momentum scale of all ID tracks. - PowerPoint PPT Presentation
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ATLAS Inner Detector Magnetic Field
I am responsible for providing the magnetic field map for the ATLAS Inner Detector.
6m long x 2m diameter cylindrical volume
2 Tesla (20000 Gauss) at Z=0, dropping to 0.8 T at Z=3m
Defines momentum scale of all ID tracks.
Require track sagitta error due to field uncertainty < 0.05 %
End of coil at 2.65 m
Steve Snow
2006the key year of the mapping project
Years of thinking and preparation: I started back in 1997
Months of building and installing the mapping machine CERN team: Martin Aleksa, Felix Bergsma, Pierre-Ange Giudici, Antoine Kehrli, Marcello Losasso, Xavier Pons, Heidi Sandaker, started mid 2005
5 days of data taking, 2nd to 7th August. Maps at 5000, 7000, 7730 and 8000 Amps.
Months of data analysis (John Hart, Paul Miyagawa, SS) now nearing completion.
The Mapping Machine
Cards each hold 3 orthogonal sensors
4 fixed NMR probes at Z=0
4 arms in windmill. Each arm equipped with 12 Hall cards
Pneumatic motors with optical encoders.
Move and measure in Z and φ.
Typical data from 5kA mapTypical Bz, Br and Bf values from probes 3,6,9,12 (increasing radius) on arm AE.
Bz peaks at ~13000 G. Br peaks at ~4500 G, Bf ~0 except for return conductor at 90 deg.
Surveys
Survey of mapping machine in Building 164 .
Radial positions of Hall cards
Z separation between arms
Z thickness of arms
Survey and re-survey in situ before mapping. Survey again in situ after mapping.
Position and rotation axis of each arm
Position of encoder zero
Position of NMR probes
All these in the Inner Warm Vessel co-ordinate system
Survey of rail slope in IWV
Survey the offsets of 3 Hall sensors from a common point in the card
Final map will be in IWV system, as will SCT TRT final survey
A lot of them !
We need to know precisely where the sensors are
Typical accuracy 0.2 mm
CalibrationHall sensors
NMR probes
Need no calibration (was done by whoever measured Gp = 42.57608 MHz/T )
Compare proton resonance frequency with reference oscillator, accurate to 0.1 G.
Low field calibration , up to 1.4 T, good to ~2 G High field calibration, up to 2.4 T, good to ~10 G
Corrections derived from the data
-8
-6
-4
-2
0
2
4
6
8
10
12
1 3 5 7 9 11 13 15 17 19 21 23 25 27 29 31 33 35 37 39 41 43 45 47 49 51 53 55 57 59 61 63 65
p25
p26
p27
p28
p29
p30
p31
p32
p33
p34
p35
p36
Corrections to Hall probes normalisation and angular alignment can be derived from the data assuming:
+ Field obeys Maxwell
+ Approximate phi symmetry
+ No high spatial frequencies
Perturbations visible in the data, eg this phi scan →
Correlated with identifiable componenets.
We subtract a dipole field, located at component position, with dipole strength chosen to make residuals look smooth.
Corrections for the field due to magnetic components of the machine.
Normalisation corrections are small, as expected from probe calibration
Alignment corrections have spread of ~2 mrad, as expected from limited Hall card mounting accuracy.
Phi encoder
Fitting function
95% of the field is directly due to the solenoid current. Use conductor geometry model and integrate Biot-Savart law.
7 free parameters:
scale factor and aspect ratio (Length/Diameter) of
conductor model
Position and orientation of field due to conductor
5% of the field is due to magnetised iron (TileCal, girders , shielding disks etc). For the moment use
4 free parameters:
Fourier-Bessel series
Conductor geometry model
All based on surveys of solenoid as built, except weld thickness chosen to fit field map data
R.M.S. residuals of fit to 5000A data are Br 3.8, Bz 3.9, Bφ 3.2 Gauss R.M.S. residuals of fit to 7730A data are Br 7.6, Bz 7.1, Bφ 5.7 Gauss We expect to exceed the required accuracy of 10 Gauss
The fit tells us that solenoid axis is 2 mm below IWV axis; the barrel tracker has been placed 2 mm low to match.
Results
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