This page is intended to list and discuss the abstract that the BeamTest team want to submit to conferences
GLAST Science Symposium - Stanford 5-8 February 2007
Particle beam tests for the GLAST-LAT Calibration
SUBMITTED Speaker TBD on behalf of the Beam Test Team (oral)
The calibration strategy of the GLAST Large Area Telescope combines analysis of cosmic ray data with accelerator particle beams measurements. An advanced MonteCarlo simulation of the LAT, based on the Geant4 package, was setup to reproduce the LAT response to such radiation, benchmark its performance throughout its entire operation and refine background rejection strategies.
To validate the LAT simulation, a massive campaign of particle beam tests was performed between July and November 2006, in parallel with the LAT integration and test, on the LAT Calibration Unit (CU). This is a detector built with two complete flight spare modules, a third spare calorimeter module, five antocoincidence tiles located around the telescope and flight-like readout electronics.
The CU was exposed to a large variety of beams, representing the whole spectrum of the signal that will be detected by the LAT, using the CERN and the GSI accelerator facilities. Beams of photons (0-2.5GeV), electrons (2-300GeV), hadrons (pions and protons, ~GeV-100GeV) and ions (C, Xe, 1.5GeV/n) were shot through the CU to measure the physical processes taking place in the detector and eventually fine-tune their description in the LAT MonteCarlo simulation.
This talk describes the motivations and goals of the test runs, the many different experimental setup used to select the required particles and trigger the CU, the measured performance of the CU and the first results of the LAT MonteCarlo validation.
Response of the GLAST-LAT Calibration Unit to sources of background
SUBMITTED Speaker TBD on behalf of the Beam Test Team (poster)
The main sources of background for the operation of the GLAST-Large Area Telescope are primary protons, albedo gammas from the earth and photons coming from interaction of positron and protons in the micro-meteoride-shield (MMS) surrounding the LAT, which create photon pairs through annihilation and pi0 decay.
An extensive beam test campaign was performed in summer 2006 on the LAT Calibration Unit (CU), a detector built with flight spare parts of the LAT; the goal of the program was 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 study of the signal produced in the CU by sources of the LAT background was performed with photon beams shot from the side of the CU, proton beams and positrons beams reaching the CU after crossing an MMS target.
Results from analysis of these data are presented in this talk.
Measuring the PSF and the energy resolution with the GLAST-LAT Calibration Unit
SUBMITTED Speaker TBD on behalf of the Beam Test Team (poster)
Because of the large phase space of the LAT and its complex structure, an advanced MonteCarlo simulation of the LAT, based on the Geant4 package, is used to optimize the instrument response functions and the background rejection. Testing the instrument with real beams at accelerator facilities was needed to make sure that this simulation is able to reproduce real data.
Between July and September 2006, we have tested the LAT Calibration Unit (CU) at CERN, both at PS and SPS accelerators. The CU is a detector built with two complete flight spare modules, a third spare calorimeter module, five anticoincidence tiles located around the telescope and flight-like readout electronics. The CU was exposed to gamma beams (from ~50 MeV up to 2.5 GeV) and electron beams (from 2 GeV up to 280 GeV) in many configurations (various incoming angles and impact points) in order to cover the large phase space of the LAT.
This large amount of data will allow us to determine the performances of the LAT, such as PSF and energy resolution. This poster will present the preliminary results on these topics.
Heavy ion beam test on the LAT Calibration Unit for on-orbit calibration optimization
DRAFT Speaker TBD on behalf of the Beam Test Team (poster)
The calorimeter (CAL) and the AntiCoincidence Detector (ACD) of the GLAST LAT telescope will be calibrated in flight with cosmic-ray heavy ions. A dedicated high level threshold in the ACD will trigger heavy ion events, and the pulse amplitude in the CAL and the ACD will be used to identify different ion species and calibrate the readout electronics. Tracker (TKR) information will be used to precisely identify the impact point and the path length of the ions in the plastic scintillators of the ACD and the CsI logs of the CAL. Such mode of operation was successfully tested in a heavy ion beam test carried out on the LAT Calibration Unit (CU) with Carbon and Xenon ions from the GSI synchrotron. The CU is a detector built with two complete flight spare modules, a third calorimeter and 5 ACD tiles which underwent a major beam test campaign in 2006 to validate the LAT MonteCarlo simulation with different particle beams.
The behaviour of all the three subsystems (TKR, CAL, ACD) under heavy ion irradiation is discussed in this poster, showing very good agreement with measurements performed on the CAL response in previous beam tests and providing the necessary input for the optimization of the strategy for on-orbit calibration.