Silicon cryogenic light detectors with ITO electrodes enable NTL amplification at millikelvin temperatures while serving as anti-reflective coatings, supported by an analytical model for gain versus bias.
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CERES is a dedicated cryogenic experiment to directly characterize position-dependent variations in the energy response of TeO2 bolometers.
CUPID-0 achieves 39.8 ± 2.1 keV FWHM resolution at 5.5 MeV for single-crystal events, enabling low-background axion searches.
citing papers explorer
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NTL-amplified cryogenic light detectors with optically transparent electrodes
Silicon cryogenic light detectors with ITO electrodes enable NTL amplification at millikelvin temperatures while serving as anti-reflective coatings, supported by an analytical model for gain versus bias.
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CERES: A Cryogenic Experiment to Reconstruct Energy Systematics in TeO$_{2}$ bolometers
CERES is a dedicated cryogenic experiment to directly characterize position-dependent variations in the energy response of TeO2 bolometers.
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Resolution Studies for Axion Searches with CUPID-0
CUPID-0 achieves 39.8 ± 2.1 keV FWHM resolution at 5.5 MeV for single-crystal events, enabling low-background axion searches.