Inelastic dark matter, small scale problems, and the XENON1T excess

Abstract

We study a generic model in which the dark sector is composed of a Majorana dark matter 1, its excited state 2, both at the electroweak scale, and a light dark photon Z' with mZ' 10-4 eV. The light Z' enhances the self-scattering elastic cross section 1 1 1 1 enough to solve the small scale problems in the N-body simulations with the cold dark matter. The dark matter communicates with the SM via kinetic mixing parameterized by ε. The inelastic scattering process 1 1 2 2 followed by the prompt decay 2 1 Z' generates energetic Z'. By setting δ m_2 - m_1 2.8 keV and ε 10-10 the excess in the electron-recoil data at the XENON1T experiment can be explained by the dark-photoelectric effect. The relic abundance of the dark matter can also be accommodated by the thermal freeze-out mechanism via the annihilation 1 1 (2 2) Z' Z' with the dark gauge coupling constant αX 10-3.