Dark matter-electron scattering and freeze-in scenarios in the light of $Z^\prime$ mediation

TL;DR

This paper explores how dark matter interacts with electrons via a new gauge boson in a $U(1)_X$ model, analyzing experimental bounds and production mechanisms to identify potential detection avenues.

Contribution

It introduces a comprehensive analysis of dark matter-electron scattering in a $U(1)_X$ extension, considering various DM types and production scenarios, and compares bounds from multiple experiments.

Findings

DM-electron scattering bounds can surpass $(g-2)$ constraints for light $Z'$

Freeze-in production constraints are stronger for $Z'$ masses above 1 GeV

Future experiments could probe the parameter space effectively

Abstract

We investigate dark matter (DM)-electron scattering in a minimal $U(1)_X$ extension of the Standard Model (SM), where the DM can appear as a Majorana fermion, a complex singlet scalar or a Dirac fermion. To study bounds on the $U(1)_X$ gauge coupling $(g_X)$ and new gauge boson mass $(M_{Z^\prime})$, from DM-electron scattering, we consider several direct search experiments like CDMS, DAMIC, SENSEI, PandaX-II, DarkSide-50 and XENON1T-S2 for different $U(1)_X$ charges. In this set-up we consider DM production via freeze-in both in radiation dominated and modified cosmological background to project sensitivities on $g_X-M_{Z^\prime}$ plane satisfying observed relic abundance. DM-electron scattering could provide comparable, or even stronger bounds than those obtained from the electron/ muon $(g-2)$, low energy scattering and intensity frontier experiments within 0.01 GeV $\lesssim M_{Z^\prime} \lesssim$ 0.1 GeV. Constrains from freeze-in could provide stronger sensitivities for $M_{Z^\prime}\gtrsim \mathcal{O}(1)$ GeV, however, these limits are comparable to those obtained from LHCb, LEP experiments for $\mathcal{O}(10)$ GeV $\lesssim M_{Z^\prime} \lesssim 150$ GeV. In future, electron-muon scattering (MUonE), proton (FASER, DUNE) and electron/positron (ILC) beam dump experiments could probe these parameters.