Probing Dark Photons from Nuclear De-excitation in Reactor Neutrino Experiment

Abstract

Reactor neutrino experiments serve as powerful probes of light new physics. We investigate MeV-scale visible dark photons (A') produced in nuclear reactors through nuclear de-excitation following neutron capture N* N A'. Compared with the conventional Compton-like production process γe- A'e-, the nuclear de-excitation yields on-shell dark photons with masses up to the nuclear transition energy. Using data from the TEXONO CsI(Tl) detector, we derive the new constraints on the kinetic mixing parameter ε for dark photon masses in the range 0.1\,MeV < mA' < 6.9\,MeV. We find that nuclear de-excitation not only extends the mass reach of reactor searches to higher dark photon masses but also provides a stronger limit than the Compton-like production process.