On the Underground Production of High Purity Germanium Detectors

Detectors based on high purity germanium (HPGe) are used in numerous deep underground experiments world-wide aiming at detecting rare events like double beta decay and interactions of dark matter. These detectors require the lowest possible background. A significant part of the background is due to radionuclides produced by cosmic-ray interactions with the germanium crystal. This report gives quantitative data on this activation and discusses the possible solutions. The first solution is to optimise the logistics during the crystal and detector fabrication so that the germanium spends a minimum time above ground. The second solution is to implement one or several (up to 12) production steps underground. The report also makes estimates on the future needs for germanium produced underground and the costs involved.JRC.D.4-Isotope measurement

Status of the GERDA Experiment

The GERDA experiment is being built in the LNGS underground laboratories for the search for neutrinoless double beta decay. Phase I of the experiment GERDA will be able to test the claim of observation of the neutrinoless double beta decay. In a second phase newly developed detectors will be added aiming to a total exposure of 100 kg yr. Status of the experiment and first results from segmented detectors operated in cryogenic liquid are presented.JRC.D.4-Nuclear physic