CE Search with Cryogenic Sapphire Detectors at MINER: Results from the TRIGA reactor data and Future Sensitivity at HFIR

Abstract

We report on a search for coherent elastic neutrino--nucleus scattering (CE) using cryogenic sapphire (Al2O3) detectors deployed at the Mitchell Institute Neutrino Experiment at Reactor (MINER), located near the 1~MWth TRIGA research reactor at Texas A\&M University. The experiment operated with a primary detector mass of 72~g and achieved a baseline energy resolution of 40~eV. Using exposures of 158~g-days (reactor-on) and 381~g-days (reactor-off), we performed a statistical background subtraction in the energy region of 0.25--3~keV. A GEANT4 simulation has been performed to understand the reactor-correlated background present in the data and it agrees with our observations. The resulting best-fit ratio of the observed CE rate to the Standard Model prediction after rejecting the reactor induced background from the data with the help of simulation, is = 0.26 1534.74~(stat) 0.05~(sys) with a significance of 0.007 0.022~(stat) 0.001~(sys). This low significance indicates a high background rate at low energies. To have enhanced sensitivity, the MINER collaboration plans to relocate the experiment to the 85~MWth High Flux Isotope Reactor (HFIR) at Oak Ridge National Laboratory (ORNL). With improved shielding, increased detector mass, and higher antineutrino flux, the upgraded setup is projected to achieve a 3σ CE detection within 30~kg·days of exposure.

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