Liquid scintillator calorimeters and in particular liquid cryogenic noble gas detectors can be calibrated and monitored by the use of multiple a-sources distributed in the detector sensitive volume. For the MEG experiment we developed a method based on the use of Po-210 and Am-241 point sources deposited on thin (100 mu m diameter) gold-plated tungsten wires permanently suspended in the volume and fixed at the surfaces of the large vessel containing the LXe. The method is valuable in measuring the relative QEs of all PMTs surrounding the sensitive LXe volume, in determining the LXe optical properties for the UV scintillation light and in checking the stability of the calorimeter properties during the experiment.
A radioactive point-source lattice for calibrating and monitoring the liquid xenon calorimeter of the MEG experiment
CEI, FABRIZIO;NICOLO', DONATO;Papa A;Signorelli G;
2006-01-01
Abstract
Liquid scintillator calorimeters and in particular liquid cryogenic noble gas detectors can be calibrated and monitored by the use of multiple a-sources distributed in the detector sensitive volume. For the MEG experiment we developed a method based on the use of Po-210 and Am-241 point sources deposited on thin (100 mu m diameter) gold-plated tungsten wires permanently suspended in the volume and fixed at the surfaces of the large vessel containing the LXe. The method is valuable in measuring the relative QEs of all PMTs surrounding the sensitive LXe volume, in determining the LXe optical properties for the UV scintillation light and in checking the stability of the calorimeter properties during the experiment.| File | Dimensione | Formato | |
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