CMB signature of non-thermal Dark Matter produced from self-interacting dark sector

Abstract

The basic idea of this work is to achieve the observed relic density of a non-thermal dark matter(DM) and its connection with Cosmic Microwave Background (CMB) via additional relativistic degrees of freedom which are simultaneously generated during the period T BBN~ to~T CMB from a long-lived dark sector particle. To realize this phenomena we minimally extend the type-I seesaw scenario with a Dirac fermion singlet() and a complex scalar singlet () which transform non-trivially under an unbroken symmetry Z3. being the lightest particle in the dark sector acts as a stable dark matter candidate while the next to lightest state operates like a long lived dark scalar particle. The initial density of can be thermally produced through either self-interacting number changing processes (3 2 ) within dark sector or the standard annihilation to SM particles (2 2~ SM). The late time (after neutrino decoupling) non-thermal decay of can produce dark matter in association with active neutrinos. The presence of extra relativistic neutrino degrees of freedom at the time of CMB can have a significant impact on Neff. Thus the precise measurement of N eff by current PLANCK 2018 collaboration and future experiments like SPT-3G and CMB-S4 can indirectly probe this non-thermal dark matter scenario which is otherwise completely secluded due to its tiny coupling with the standard model.