...
beam energy | CU position and impact point | CU configuration | tagged | statistics | estimated time (hrs) | purpose |
---|---|---|---|---|---|---|
5 | 0 degrees through twr1, 12 positions x 2(XY) | BT16 (4rng, NZS,ext trigger) | NA | 10k per 12 pos | 3 | scan logs for intercalibration, verify if need to redo calibrations after pile-up rejection |
1. study nuclear interactions : shape in CAL and TKR, Mip Finder, check MC
+++ BT-1 configuration
+ proton, 0 degree, 10-6 GeV/c, tower 3
+ proton, 60 degrees, 10-6 GeV/c, tower 3
2. CAL CAL FHE study : check DAV-MeV conversion, efficiency
+++ BT-17 to BT-21 configurations
+ electrons, 0 degree, 5GeV/c, tower 3,
FHE=500MeV-750MeV-1000MeV-1500MeV-2000MeV
+ electrons, 45 degree, 5GeV/c, tower 3,
FHE=500MeV-750MeV-1000MeV-1500MeV-2000MeV
Proton runs
1. study nuclear interactions : shape in CAL and TKR, Mip Finder, check MC
+++ BT-1 configuration
+ proton, 0 degree, 10-6 GeV/c, tower 3
+ proton, 60 degrees, 10-6 GeV/c, tower 3
2. study pedestal drift vs rate:
p at 10 GeV setting LAT threshold to 5 DAC
3. p run with muon settings to check standard ground calibration with CR with real MIPs
Pile-up verification runs
Setup a random trigger and take couple of quick runs (20k evts) in random trigger to directly measure pile-up events - setup should be done in parallel