LAT CU Heavy Ion Beam Test at GSI - Run Plan
Motivations
The CU Beam Test at GSI is part of the general beam test program of the GLAST LAT CU.
The main goal of the program is to support the LAT Instrument Calibration by providing direct measurements of the physical processes taking place in the CU detector when exposed to different beams, by comparing the obtained measurements with Monte Carlo predictions and by eventually validating the full LAT MC code used to provide instrument calibrations and background rejection strategies.
The first part of the program took place at CERN using a variety of different particle beams (e, e+, p, pions, photons) and ranging in energies from tens of MeV up to hundreds of GeV.
The second part of the program exploits the high energy heavy ion beams available at GSI to measure the response of the CU to such radiation. Heavy ions are an important component of primary cosmic rays, and the LAT plans to use them to calibrate the CAL and ACD subsystems during flight operations. Therefore the GSI test is primarily meant to verify the on-orbit calibration procedure for the CAL, which uses also the ACD and TKR subsystems for triggering and tracking.
The CU beam test at GSI is also a first test with heavy ions for the TKR subsystem.
List of measurements
Below is a partial list of topics of interest, grouped per subsystems
TKR: saturation effects from heavy ions on ToT signal, tracking performance, instrument deadtime
CAL: verification of quenching factors (measured at GSI 2003), test on-orbit calibration procedure and code
ACD: verification of CNO trigger, verify ACD dynamic range
General overview of the run
The run at GSI is scheduled between november 15 and november 20, with beam avaialble between november 18 8AM and november 19 8PM.
Installation and debug will take place on november 15, 16, 17.
Below is a table summarizing the standard operating mode agreed with GSI. Specific run conditions can be agreed and must be defined beforehand (see detailed run schedule)
Run period |
Operation mode |
Ions |
Energy |
Rate |
---|---|---|---|---|
18/11-8AM 19/11-8PM |
parasitic mode to therapy for daytime (approx 20 min irradiation with 20 min break), timesharing with other experiment overnight |
C, Xe (probably on 19 anytime) |
1.5GeV/n |
O(100)Hz/cm^2 |
The beam focus can be moved from a few meters upstream the detector down to the CU location, in order to enlarge or squeeze the beam spot. This feature can also be used to decrease/increase particle density.
Trigger considerations
Since the allocated beam time is not very much, we should exploit the capability of operating the CU with multiple trigger engines. Moreover, effects like pedestal drift and different investigations to be performed, suggest that we run in such mode to cover more topics in a short data-taking time.
Multiple trigger engines worked with the CU both at CERN-SPS and at INFN with CR tests.
Such operation will be verified again at GSI, with CR and beam, to make sure that the CU operates in the expected way and we can proceed with the test in such mode.
The CNO trigger, in combination with TKR and CAL triggers will be the main trigger for the test. Some runs will be taken with external trigger, others will be taken with standard internal trigger made with TKR and CAL primitives. Please note that without external trigger we will have some contamination from CR.
A periodic trigger, with variable frequency, will be in parallel to the main particle trigger all the runs, in order to sample the hardware status with random triggers.
All these requestes are implemented through the specific multiple trigger engines defined below, each of which mapped to a specific BT configuration.
Any of the EXTERNAL, CNO, TKR, CAL-LO, CAL-HIGH, PERIODIC signal can open the trigger window.
*BT50
Condition |
engine |
---|---|
CNO&&TKR&&ANY-CAL |
4-range, NZS |
periodic(5Hz) |
4-range, NZS |
CNO&&anything else |
auto-range, ZS |
*BT51
Condition |
engine |
---|---|
CNO&&TKR&&CAL-LO |
auto-range, ZS |
periodic(5Hz) |
4-range, NZS |
CNO&&anything else |
auto-range, ZS |
*BT52
Condition |
engine |
---|---|
EXTERNAL |
4-range, NZS |
periodic(5Hz) |
4-range, NZS |
*BT53
Condition |
engine |
---|---|
EXTERNAL |
4-range, ZS |
periodic(5Hz) |
4-range, NZS |
*BT54
Condition |
engine |
---|---|
EXTERNAL |
4-range, ZS |
periodic(100Hz) |
4-range, NZS |
List of runs
Below is a list of specific run requests. Plese update the table and notify Luca so that a proper run schedule can be developed and agreed with GSI
Purpose |
preferred schedule |
Ion |
Energy |
Rate on CU |
Beam focus |
CU configuration |
Trigger |
notes |
reference |
---|---|---|---|---|---|---|---|---|---|
Test multiple trigger engines prior to beam |
nov 16-17 |
NA |
NA |
NA |
NA |
enable multiple trigger engines |
CNO, periodic, internal trigger |
take runs at different CNO thresholds, periodic trigger frequency |
luca |
Test multiple trigger engines w beam |
nov 18 |
C |
1.5Gev/n |
100Hz |
any |
enable multiple trigger engines |
CNO, periodic, internal trigger |
take runs at different CNO thresholds, periodic trigger frequency |
luca |
Monitor beam rate and conditions |
nov 18 |
C |
1.5Gev/n |
10-1000Hz |
play with focus to change beam intensityon CU |
4 range readout, non zero suppression |
external |
to be repeated shortly per configuration change |
luca |
Rate scan |
after multiple engine work |
C |
1.5Gev/n |
10-1000Hz |
play with focus to change beam intensity on CU |
multiple trigger engines, ZS |
CNO, periodic, internal trigger |
vary periodic trigger frequency to induce pedestal drift |
luca, eric g |
Tracking performance |
any time |
C,Xe |
1.5Gev/n |
10-1000Hz |
far and near focus |
multiple trigger engines, flight settings, 4range-readout ZS |
CNO, internal trigger |
investigate tracking at different rates and angles (0,30,45,60 TBD) |
leon, INFN |
Tracking saturation |
any time |
C,Xe |
1.5Gev/n |
10-1000Hz |
far focus |
multiple trigger engines, flight settings |
CNO, TKR trigger, 4range-readout ZS |
scan different angles (0,30,45,60 TBD) |
leon, INFN |
CAL calibration |
nov 18 |
C,Xe |
600MeV/n, 1GeV/n, 1.5GeV/n |
100Hz |
far and near focus |
multiple trigger engines, ZS |
CNO, periodic, internal trigger |
verify quenching factors, CAL calibrations, ACD partial calibration |
CAL team |
CAL calibration comparison with previous results |
nov 18 |
C,Xe |
1.5GeV/n |
100Hz |
far and near focus |
software trigger |
4range, ZS |
beam on tower1 to avoid TKR in the line |
CAL team |
Energy scan |
nov 19 |
C,Xe |
100MeV/n - 1.5GeV/n in steps |
10-1000Hz |
far and near focus |
multiple trigger engines |
CNO, periodic, internal trigger |
attempt to simulate different ions by varying ionization energy |
nicola |
Secondary ions with target |
nov 19 |
Xe |
1.5GeV/n |
10-1000Hz |
far and near focus |
multiple trigger engines |
CNO, periodic, internal trigger |
attempt to get different ions by shooting beam through a target |
benoit |
Charge injection in CAL with beam |
nov 19 |
C |
1.5GeV/n |
10-1000Hz |
far and near focus |
software trigger |
4range, NZS |
check pedestal restoration with beam ON, explore different beam rates; can use existing CalibGenCAL script |
sasha |
Charge injection in TKR with beam |
nov 19 |
C |
1.5GeV/n |
10-1000Hz |
far and near focus |
software trigger |
4range, NZS |
check rate effect in TKR signal; must identify CI script and plots to monitor |
leon, TKR team |
TOT saturation |
nov 19 |
C |
1.5Gev/n |
100Hz |
far focus |
multiple trigger engines, flight settings |
CNO, TKR trigger, 4range-readout ZS |
try increasing TOT dynamic range by working with sys clock at 5MHz - need to first proof feasibility, find proper timing |
robert, nicola |