Calibration
Updated on Thu, 2023-03-09 14:50. Originally created by marr on 2014-09-30 10:44.
Under:
Run21 (200 GeV O+O)
Run19 (BES II)
Run18 (200 GeV Isobar, 27 GeV Au+Au)
Run17 (500 GeV p+p, 54 GeV Au+Au)
MTD Calibration
Calibration Parameters
- Trigger Time Windows -- limit the MTD hits to those that are within a certain window w.r.t. the central TOF clock
- INL -- apply the Integral Non-Linearity electronics calibration (specific to the HPTDC chips)
- T0 -- align the timing of all the MTD channels
- Slewing -- calibration for amplitude (time-over-threshold) depended timing effects
- Alignment -- correct MTD/TPC alignment, using the residuals between matched TPC track and MTD hit pairs
Procedure
A schematic workflow is shown here, and a detailed description can be found in Calibration Workflow. Details about the calibration procedure can be found here.
Parameter Storage
Calibration Parameters
Run21 (200 GeV O+O)
- T0, slewing and position calibration parameters are taken from Run18
- Determine timing window for real data: OO 200 GeV
- Global T0 timing: OO 200 GeV
- Check all calibration parameters: OO 200 GeV
Run19 (BES II)
- T0, slewing and position calibration parameters are taken from Run18
- Determine timing window for real data: AuAu 19.6 GeV
- Check timing window vs. day: AuAu 19.6 GeV
- Global T0 timing: AuAu 19.6 GeV
- Check all calibration parameters: AuAu 19.6 GeV
Run18 (200 GeV Isobar, 27 GeV Au+Au)
- Cosmic ray: T0, slewing and position calibration: slides
- Determine timing window for cosmic ray: slides
- Change window cut from 3sigma to 3.5 sigma to be conservative, even though this should make very little difference
- Determine timing window for real data: Isobar 200 GeV (083-129), AuAu 27 GeV (part2, also used for part1)
- Check timing window vs. day: Isobar 200 GeV, AuAu 27 GeV (part2, also used for part1)
- Global T0 timing: Isobar 200 GeV (083-129), AuAu 27 GeV part1, part2
- Check all calibration parameters: Isobar 200 GeV (083-129), AuAu 27 GeV part1, part2
Run17 (500 GeV p+p, 54 GeV Au+Au)
- Determine timing window for cosmic ray: slides
- Determine timing window for real data: pp 500 GeV, AuAu 54 GeV
- Check timing window vs. day: pp 500 GeV
- Global T0 timing: pp 500 GeV, AuAu 54 GeV
- Check all calibration parameters: pp 500 GeV, AuAu 54 GeV
Run16 (200 GeV Au+Au, 20-200 GeV d+Au)
- Determine timing window for cosmic ray: slides
- Determine timing window for real data: slides (the same timing window cuts are used for all data sets)
- Check timing window vs. day: slides
- Global T0 timing: AuAu 200 GeV, dAu 200 GeV, dAu 20-62 GeV
- Check timing window cuts: dAu 200 GeV, dAu 20-62 GeV
- Check all calibration parameters: AuAu 200 GeV, dAu 200 GeV, dAu 20-62 GeV
Run15 (200 GeV p+p, p+Au)
- Determine timing window for cosmic ray: slides
- Determine timing window real data: 046-117, 125-158, 161-169
- Global T0 timing: slides
- Check timing window cuts: slides
Run14 (200 GeV Au+Au)
- Determine timing window for cosmic ray data: slides
- Determine timing window for real data: slides
- Compare mean and sigma of dT distributions between data and cosmic ray: mean, sigma
Run13 (510 GeV p+p)
- Determine timing window for cosmic ray: slides
- Determine timing window for real data: 130-149, 151-161
- Check timing window vs. day: slides
- Compare mean and sigma of dT distributions between data and cosmic ray: mean, sigma
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