In recent years, high sensitivity, low-threshold detectors employing transition edge sensor (TES) read out technology have garnered significant interest in the field of rare-event searches. Numerous experiments have incorporated these detectors for direct dark matter detection and coherent elastic neutrino-nucleus scattering (CEνNS) studies. As these experiments scale up and operate larger arrays, a key challenge is to enhance the reproducibility among detectors while promoting modularity in terms of both the choice of absorber and sensor. COSINUS (Cryogenic Observatory for SIgnals seen in Next-generation Underground Searches) has experimentally demonstrated that a novel cryogenic detector scheme, known as remoTES, can address these challenges. This contribution outlines findings from a systematic study of Si prototypes, highlighting ongoing optimization efforts to achieve better detector performance.
Bharadwaj, M., Angloher, G., Cababie, M., Dafinei, I., Di Marco, N., Einfalt, L., et al. (2024). remoTES: a novel cryogenic detector for rare-event searches. In XVIII International Conference on Topics in Astroparticle and Underground Physics. Sissa Medialab Srl [10.22323/1.441.0060].
remoTES: a novel cryogenic detector for rare-event searches
Pagnanini L.;Puiu A.;
2024
Abstract
In recent years, high sensitivity, low-threshold detectors employing transition edge sensor (TES) read out technology have garnered significant interest in the field of rare-event searches. Numerous experiments have incorporated these detectors for direct dark matter detection and coherent elastic neutrino-nucleus scattering (CEνNS) studies. As these experiments scale up and operate larger arrays, a key challenge is to enhance the reproducibility among detectors while promoting modularity in terms of both the choice of absorber and sensor. COSINUS (Cryogenic Observatory for SIgnals seen in Next-generation Underground Searches) has experimentally demonstrated that a novel cryogenic detector scheme, known as remoTES, can address these challenges. This contribution outlines findings from a systematic study of Si prototypes, highlighting ongoing optimization efforts to achieve better detector performance.
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