Difference between revisions of "HRS Detector Calibrations"
From Hall A Wiki
| Line 12: | Line 12: | ||
<tr> | <tr> | ||
<td>7.3</td> | <td>7.3</td> | ||
| − | <td> | + | <td>2.918</td> |
| − | <td> | + | <td>22.8</td> |
<td>None</td> | <td>None</td> | ||
<td>Optics Carbon</td> | <td>Optics Carbon</td> | ||
Revision as of 15:57, 26 October 2014
| Ebeam [GeV] | P0 [GeV/c] | θe [deg] | Collimator | Target | Fast Raster X x Y |
Beam Current | Trigger |
| 7.3 | 2.918 | 22.8 | None | Optics Carbon | 1 mm x 1 mm | 20μA | S0&&S2m |
- Check the timing and calibration constants (shower ADC gains, pedestals, timing offsets, pulse height corrections, attenuation lengths, efficiencies, position dependencies).
- VDCs and Straw Chambers (Yang Wang)
* Look at drift time spectra, is the shape reasonable? in the right time range?
* Fit for new time-to-distance map
* Look at focal plane distributions.
* Check fiducial tracking efficiency, is it > 95%, If not, then check TDC windows and tracking parameters.
- HRS Scintillators (Barak Schmookler)
* Look at all channels, compare against standard histograms.
* Are any channels firing at high rate (possible light leak)?
- Gas Cherenkov (Barak Schmookler)
* Look at histograms (Npe vs. x, and Npe vs. Shower), compare with standard distributions, ideally there shoudl be no x dependence.
- Electromagnetic calorimeters (Longwu Ou)
* Make sure all ADC channels have signals.
* Calibrate with electrons.
- After these steps, the detectors should be fairly well calibrated.
