DSpace at EWHA: Development of an array of fourteen HPGe detectors having 70% relative efficiency each

View : 725 Download: 0

Development of an array of fourteen HPGe detectors having 70% relative efficiency each

Title: Development of an array of fourteen HPGe detectors having 70% relative efficiency each

Authors: Leonard, D. S.; Hahn, K., I; Kang, W. G.; Kazalov, V; Kim, G. W.; Kim, Y. D.; Lee, E. K.; Lee, M. H.; Park, S. Y.; Sala, E.

Journal Title: NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH SECTION A-ACCELERATORS SPECTROMETERS DETECTORS AND ASSOCIATED EQUIPMENT

Citation: NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH SECTION A-ACCELERATORS SPECTROMETERS DETECTORS AND ASSOCIATED EQUIPMENT vol. 989

Keywords: Radiopurity; Germanium counting; Low background; Ultra-trace analysis; Double beta decay; Dark matter

Abstract: Searches for new physics push experiments to look for increasingly rare interactions. As a result, detectors require increasing sensitivity and specificity, and materials must be screened for naturally occurring, background-producing radioactivity. Furthermore, the detectors used for screening must approach the sensitivities of the physics-search detectors themselves, thus motivating iterative development of detectors capable of both physics searches and background screening. We report on the design, installation, and performance of a novel, low-background, fourteen-element high-purity germanium detector named the CAGe (CUP Array of Germanium), installed at the Yangyang underground laboratory in Korea.