- BEMC
- BEMC Detector Operator Manual
- Calibrations
- BPRS
- BSMD
- BTOW - Calibration Procedure
- Run 12 BTOW Calibration
- Run 3 BTOW Calibration
- Run 4 BTOW Calibration
- Run 5 BTOW Calibration
- Run 6 BTOW Calibration
- Run 7 BTOW Calibration
- Run 8 BTOW Calibration (2008)
- 01 statistical analysis of 2008 HV
- 02 BTOW swaps ver=1.3
- 03 MIP peak analysis (TPC tracks, 2008 pp data)
- 04 relative tower gains based on MIPs (gain correction 1)
- 05 Absolute Calibration from Electrons
- 06 Calculating 2009 HV from Electron Calibrations
- 07 BTOW absolute gains 'ab initio'
- 08 Completed Calibration and Uncertainty
- Run 9 BTOW Calibration
- Database
- Hardware
- Mapping
- Service Tasks
- Software
- Useful Documents
- BTOF
- DAQ
- Detector Upgrades
- EEMC
- EPD
- ETOF
- FCS
- FGT
- FPD & FMS & FPS
- FTPC
- FTT
- HFT
- HLT
- L3
- MTD
- MTD NPS Maps
- PMD
- PP2PP
- RICH
- Roman Pot Phase II*
- Run-18 calibrations
- SSD
- SVT
- Slow Controls
- TPC
- TRG
- Trigger Detectors
- VPD
- test
06 Calculating 2009 HV from Electron Calibrations
Updated on Thu, 2009-02-19 10:33. Originally created by mattheww on 2009-02-18 18:04.
Under:
The ideal gain for each tower satisfies the following relation, where E_T = 60 GeV when ADC is max scale (~4095 - ped):
(1)
We want to calculate the total energy deposited in a tower, which is the following in the ideal case:
(2)
In reality, we calculate the calibration according to the following formula:
(3)
where there is an electron correction for each eta ring, and the MIP location is determined for all towers.
Thus, to have ideal gains, we want the following relation to hold
(4)
To make this relation true, we need to adjust the high voltage for each tower according to the following relation:
(5)
We can check the changes using slopes.
»
- Printer-friendly version
- Login or register to post comments