Resolution Studies for Axion Searches with CUPID-0

TL;DR

This study evaluates the energy resolution of CUPID-0 detectors for high-energy solar axion detection, demonstrating their suitability for low-background axion searches at 5.5 MeV.

Contribution

It provides a detailed resolution study for CUPID-0 detectors at 5.5 MeV, supporting their use in solar axion searches with low background levels.

Findings

Energy resolution at 5.5 MeV is (39.8 ± 2.1) keV FWHM for single-crystal events.

Detector response extrapolation enables axion searches with background below 10^{-3} counts/(keV kg y).

Exposures of 9.95 kg·yr and 5.74 kg·yr analyzed for calibration and background spectra.

Abstract

Axions, hypothetical particles proposed to solve the strong CP problem and considered promising dark matter candidates, can be produced in the Sun and interact in detectors via couplings to photons, electrons, or nucleons. The CUORE and CUPID scintillating cryogenic calorimeters, originally developed to search for dark matter and neutrinoless double beta decay, are well suited to axion searches due to their excellent energy resolution, particle identification capability and low background. In order to search for high-energy solar axions at 5.5~MeV, a resolution study is carried out using calibration and background spectra, extrapolating the detector response in the hypothetical signal region. The analysis is based on exposures of 9.95~kg$\cdot$yr (CUPID-0 Phase~I) and 5.74~kg$\cdot$yr (CUPID-0 Phase~II). The energy resolution FWHM at 5.5~MeV is found to be $(39.8 \pm 2.1)$ keV for events fully contained in a single crystal, enabling axion searches with a background level lower than $10^{-3}$\,counts/(keV kg y).