Archivio Istituzionale della RicercaSuperconducting transition-edge sensors (TESs) are a type of quantum sensor known for their high single-photon detection efficiency and low background. This makes TESs ideal for particle-physics experiments searching for rare events. In this work, we present a comprehensive characterization of the background in optical TESs, distinguishing three types of events: electrical-noise, high-energy, and photonlike events. We introduce computational methods to automate the classification of events. We experimentally verify and simulate the source of the high-energy events. We also isolate the photonlike events, the expected signal in dielectric haloscopes searching for dark-matter dark photons, and achieve a photonlike dark-count rate of 3.6×10−4 in the 0.8–3.2 eV energy range.
Dark counts in optical superconducting transition-edge sensors for rare-event searches / Manenti, L.; Pepe, C.; Sarnoff, I.; Ibrayev, T.; Oikonomou, P.; Knyazev, A.; Monticone, E.; Garrone, H.; Alder, F.; Fawwaz, O.; Millar, A. J.; Mora, K. D.; Shams, H.; Arneodo, F.; Rajteri, M.. - In: PHYSICAL REVIEW APPLIED. - ISSN 2331-7019. - ELETTRONICO. - 22:2(2024). [10.1103/PhysRevApplied.22.024051]
Dark counts in optical superconducting transition-edge sensors for rare-event searches
Pepe C.;Garrone H.;
2024
Abstract
Superconducting transition-edge sensors (TESs) are a type of quantum sensor known for their high single-photon detection efficiency and low background. This makes TESs ideal for particle-physics experiments searching for rare events. In this work, we present a comprehensive characterization of the background in optical TESs, distinguishing three types of events: electrical-noise, high-energy, and photonlike events. We introduce computational methods to automate the classification of events. We experimentally verify and simulate the source of the high-energy events. We also isolate the photonlike events, the expected signal in dielectric haloscopes searching for dark-matter dark photons, and achieve a photonlike dark-count rate of 3.6×10−4 in the 0.8–3.2 eV energy range.
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https://hdl.handle.net/11583/2992018