Dark Matter Freeze-in from a Z Reheaton
Abstract
We consider the Standard Model (SM) extended by a secluded U(1)D gauge sector encompassing a Dirac fermion () dark matter (DM), an abelian gauge boson Z and a SM-singlet complex-scalar field , whose radial component drives cosmic inflation. When the Higgs portal coupling is small, the Z then acts as a ``reheaton'', dominating the energy budget of the Universe before finally yielding the SM bath, with reheating temperature < O(10) TeV, through the gauge portal interaction. We explore the possibility that DM freezes-in via non-thermal Z decays before reheating ends, giving rise to substantial viable parameter space. We account for non-perturbative effects, relevant during the initial stages of reheating, using lattice simulations. We additionally show how the cosmological gravitational wave (GW) background produced by preheating and inflation allow for a direct probe of the reheating mechanism.
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