Mixed Freeze-In and Freeze-Out Histories and Dark-Sector Decays in a Z4 Two-Scalar Model

Abstract

We present a systematic non-equilibrium analysis of a renormalisable Z4 Higgs-portal dark sector comprising a complex scalar SA and a real scalar SB. In this framework, conversion, semi-annihilation, and (when kinematically allowed) SB SA SA decays shape the coupled relic-density evolution. Imposing theoretical consistency, Higgs invisible-decay limits, and the latest LZ spin-independent bound with the standard relic-fraction rescaling, we show that the severe exclusions typical of thermal two-WIMP analyses are largely an artefact of requiring both components to thermalise with the SM bath. Mixed WIMP-FIMP (and fully feeble FIMP-FIMP) histories reopen regions excluded in thermal two-WIMP interpretations, since the total relic density can be shared while the direct-detection signal is carried only by the thermal fraction. For the unstable hierarchy MSB>2MSA, we identify decay-dominated regimes-SuperWIMP, injection-assisted freeze-out, and sequential freeze-in (``SuperFIMP'')-where late dark-sector injection sets the final SA abundance. These results establish the Z4 Higgs-portal model as a controlled benchmark for multi-component dark matter beyond the two-thermal-relic assumption.