Dark photon production through positron annihilation in beam-dump experiments

Abstract

High energy positron annihilation is a viable mechanism to produce dark photons (A). This reaction plays a significant role in beam-dump experiments using experiments using multi-GeV electron-beams on thick targets by enhancing the sensitivity to A production. The positrons produced by the electromagnetic shower can produce an A via non-resonant (e+ + e- γ + A) and resonant (e+ + e- A) annihilation on atomic electrons. For visible decays, the contribution of resonant annihilation results in a larger sensitivity with respect to limits derived by the commonly used A-strahlung in certain kinematic regions. When included in the evaluation of the E137 beam-dump experiment reach, positron annihilation pushes the current limit on downwards by a factor of two in the range 33 MeV/c2<mA<120 MeV/c2.