A novel detector system for KATRIN to search for keV-scale sterile neutrinos
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Sterile neutrinos are a minimal extension of the Standard Model of Particle Physics. If their mass is in the kilo-electron-volt regime, they are viable dark matter candidates. One way to search for sterile neutrinos in a laboratory-based experiment is via tritium-beta decay, where the new neutrino mass eigenstate would manifest itself as a kink-like distortion of the $\beta$-decay spectrum. The objective of the TRISTAN project is to extend the KATRIN setup with a new multi-pixel silicon drift detector system to search for a keV-scale sterile neutrino signal. In this paper we describe the requirements of such a new detector, and present first characterization measurement results obtained with a 7-pixel prototype system.
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The Remote Analog to Digital Conversion DAQ System for the TRISTAN Detector Upgrade
A custom remote ADC DAQ system with flexible signal processing has been designed and constructed to handle 10^5 counts per second from over 1000 silicon drift detector pixels for precision tritium beta-decay spectroscopy.
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