Matteo Gugiatti scite author profile

Sterile neutrinos are a minimal extension of the standard model of particle physics. A promising model-independent way to search for sterile neutrinos is via high-precision β-spectroscopy. The Karlsruhe tritium neutrino (KATRIN) experiment, equipped with a novel multi-pixel silicon drift detector focal plane array and read-out system, named the TRISTAN detector, has the potential to supersede the sensitivity of previous laboratory-based searches. In this work we present the characterization of the first silicon drift detector prototypes with electrons and we investigate the impact of uncertainties of the detector’s response to electrons on the final sterile neutrino sensitivity.

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Characterisation of a silicon drift detector for high-resolution electron spectroscopy

Gugiatti

Biassoni

Carminati

et al. 2020

Nuclear Instruments and Methods in Physics Research Section A:

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KATRIN: status and prospects for the neutrino mass and beyond

Aker¹,

Balzer²,

Batzler³

et al. 2022

J. Phys. G: Nucl. Part. Phys.

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The Karlsruhe Tritium Neutrino (KATRIN) experiment is designed to measure a high-precision integral spectrum of the endpoint region of T2 β decay, with the primary goal of probing the absolute mass scale of the neutrino. After a first tritium commissioning campaign in 2018, the experiment has been regularly running since 2019, and in its first two measurement campaigns has already achieved a sub-eV sensitivity. After 1000 days of data-taking, KATRIN’s design sensitivity is 0.2 eV at the 90% confidence level. In this white paper we describe the current status of KATRIN; explore prospects for measuring the neutrino mass and other physics observables, including sterile neutrinos and other beyond-Standard-Model hypotheses; and discuss research-and-development projects that may further improve the KATRIN sensitivity.

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Matteo Gugiatti

Characterization of silicon drift detectors with electrons for the TRISTAN project

Characterisation of a silicon drift detector for high-resolution electron spectroscopy

KATRIN: status and prospects for the neutrino mass and beyond

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