Illuminating sequential freeze-in dark matter with dark photon signal at the CERN SHiP experiment

Abstract

Single-field freeze-in dark matter barely leaves observable footprints in dark matter direct detection, collider or fixed-target experiments, which can be altered in the two-field context. In this work, we consider sequential freeze-in dark matter through signals of dark photon mediator with a mass range of mA' 10-2-10 GeV covered by the proposed SHiP experiment. We show that the dark charge is fixed to be e' 1.3× 10-12 and the mixing parameter is restricted to 10-11≤ ε< 10-8-10-7.5, as a result of the out-of-equilibrium condition of dark photon and the observed relic abundance of dark matter. Within this ε region, the 5(15)-year data of proton bremsstrahlung process for the dark photon, assuming vector meson (dipole) dominance, excludes ε≥ 10-8.5 (10-7.9) at 90\% confidence level, implying only a narrow region of ε close to 10-11 left for alternative tests.

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