Difference between revisions of "Barrel Calorimeter Commissioning"
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==Gain Normalization with Muons== | ==Gain Normalization with Muons== | ||
| − | The gain of the BCAL | + | The gain of the BCAL FADC channels should be roughly matched initially because the voltage of each MPPC light sensor is set to |
a fixed voltage above its breakdown voltage. Further refinement of the gain settings will be done using cosmic-ray muons | a fixed voltage above its breakdown voltage. Further refinement of the gain settings will be done using cosmic-ray muons | ||
(or other penetrating particles). | (or other penetrating particles). | ||
Revision as of 17:33, 30 June 2014
Contents
Back to the Hall D commissioning page.
Introduction
This document describes the commissioning process for the GlueX barrel calorimeter (BCAL).
Gain Normalization with Muons
The gain of the BCAL FADC channels should be roughly matched initially because the voltage of each MPPC light sensor is set to a fixed voltage above its breakdown voltage. Further refinement of the gain settings will be done using cosmic-ray muons (or other penetrating particles). A trigger has been set up to identify particles traversing the magnet and BCAL at a constant position along the beam (z-direction). This trigger runs at a rate of about 0.5 Hz. Between the middle of July and the middle of October, it should be possible to run these trigger on nights an weekends. A reasonable estimate is probably 50 hours per week of data collection, which yields about 50k events per week, assuming 50% trigger efficiency. We estimate we need approximately 200k events to collect sufficient statistics for one iteration of gain matching with through-going muons and thus a few iterations of gain settings can be accomplished before the fall run. The following activities are expected to be done using cosmic events.
- Measure efficiency of hits on individual wires being used on tracks. This study can be carried out with about 50,000 events with good tracks in the BCAL.
- Measure the response to thru muons. Compare to Monte Carlo to eliminate geometrical effects. Determine gain factors and/or adjust
voltage settings to equalize the response to energy depositions in the BCAL.
Gain Normalization with Michel Electrons
Define triggering conditions
Commissioning with Photon Beam
Initial beam into Hall D is expected in November 2014. The data collected during this running will be utilized to continue commissioning the BCAL.
Magnetic Field Studies
- Verify response of detector is insensitive to the magnetic field
- Measure rates of hits and particles in the BCAL with and without magnetic field.
Calibration and Detector Performance during Normal Running
- Select an event sample of neutrals in the BCAL
- Find a clean sample of pi0 events that can be used for gain matching
- Select a sample of pi0 events with one photon in the FCAL and one in the BCAL
- If FCAL has already been gain matched, assume their calibration is correct and adjust gains of BCAL elements
- After initial calibrations have been completed, search for a sample of eta events and repeat.
Back to the Hall D commissioning page.
