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arxiv: 2212.11515 · v3 · pith:7VY76XRVnew · submitted 2022-12-22 · ⚛️ physics.ins-det · hep-ex

Reactor neutrino physics potentials of cryogenic pure-CsI crystal

classification ⚛️ physics.ins-det hep-ex
keywords pure-csilightyieldcryogeniccrystalsipmarrayscrystals
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This paper presents a world-leading scintillation light yield among inorganic crystals measured from a 0.5~kg pure-CsI detector operated at 77 Kelvin. Scintillation photons were detected by two 2-inch Hamamatsu SiPM arrays equipped with cryogenic front-end electronics. Benefiting the light yield enhancement of pure-CsI at low temperatures and the high photon detection efficiency of SiPM, a light yield of 30.1 photoelectrons per keV energy deposit was obtained for X-rays and $\gamma$-rays with energies from 5.9~keV to 59.6~keV. Instrumental and physical effects in the light yield measurement are carefully analyzed. This is the first stable cryogenic operation of kg-scale pure-CsI crystal readout by SiPM arrays at liquid nitrogen temperatures for several days. The world-leading light yield opens a door for the usage of pure-CsI crystal in several fields, particularly in detecting the coherent elastic neutrino-nucleus scattering of reactor neutrinos. The potential of using pure-CsI crystals in neutrino physics is discussed in the paper.

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  1. Cryogenic pure CsI as a probe for neutrino electromagnetic interactions

    hep-ex 2026-04 conditional novelty 7.0

    Cryogenic pure CsI converts the suppression of nuclear recoil ionization into a selective probe for neutrino-electron scattering, enabling better constraints on neutrino electromagnetic couplings at reactor sites.