Observation of a low energy nuclear recoil peak in the neutron calibration data of an Al2O3 crystal in CRESST-III

Abstract

The current generation of cryogenic solid state detectors used in direct dark matter and CE NS searches typically reach energy thresholds of O(10)\,eV for nuclear recoils. For a reliable calibration in this energy regime a method has been proposed, providing mono-energetic nuclear recoils at low energies \,100\,eV\,-\,1\,keV. In this work we report on the observation of a peak at (1113.6+6.5-6.5)\,eV in the data of an Al2O3 crystal in CRESST-III, which was irradiated with neutrons from an AmBe calibration source. We attribute this mono-energetic peak to the radiative capture of thermal neutrons on 27Al and the subsequent de-excitation via single γ-emission. We compare the measured results with the outcome of Geant4 simulations and investigate the possibility to make use of this effect for the energy calibration of Al2O3 detectors at low energies. We further investigate the possibility of a shift in the expected energy scale of this effect caused by the creation of defects in the target crystal.