New Constraints on Axion-Like Particles with the NEON Detector at a Nuclear Reactor

Abstract

We report new constraints on axion-like particles (ALPs) using data from the NEON experiment, which features a 16.7 kg of NaI(Tl) target located 23.7 meters from a 2.8 GW thermal power nuclear reactor. Analyzing a total exposure of 3063 kg·days, with 1596 kg·days during reactor-on and 1467 kg·days during reactor-off periods, we compared energy spectra to search for ALP-induced signals. No significant signal was observed, enabling us to set exclusion limits at the 95\% confidence level. These limits probe previously unexplored regions of the ALP parameter space, particularly for axion mass (ma) near 1 MeV/c2. For ALP-photon coupling (gaγ), limits reach as low as 6.24× 10-6 GeV-1 at ma = 3.0 MeV/c2, while for ALP-electron coupling (gae), limits reach 4.95× 10-8 at ma = 1.02 MeV/c2. This work demonstrates the potential for future reactor experiments to probe unexplored ALP parameter space.