Monte Carlo simulation of the Cherenkov radiation emitted by TeO2 crystal when crossed by cosmic muons

TeO2 crystals are currently used as bolometric detectors in experiments searching for the neutrinoless double beta decay of Te-130. The extreme rarity of the studied signal forces the experiments to reach an ultra low background level. The main background source is represented by alpha particles emitted by radioactive contaminants placed in the materials that compose and surround the detector. Recent measurements show that a particle discrimination in TeO2 bolometers detecting the light emitted by beta/gamma particles is possible, opening the possibility to make large improvements in the performance of experiments based on this kind of materials. In order to understand the nature of this light emission a measurement at room temperature with TeO2 crystals was performed. According to these results, the detected light was compatible with the Cherenkov emission, even though the scintillation hypothesis could not be discarded. In this work a Monte Carlo (MC) simulation of the Cherenkov radiation emitted by TeO2 crystal when crossed by cosmic muons was performed. The data (corn MC and the room temperature measurement are perfectly compatible and prove that the Cherenkov light is the only component of the light yield of TeO2 crystals. (C) 2013 Elsevier B.V. All rights reserved.