Secluded Dark Sector and Muon (g-2) in the Light of Fast Expanding Universe

Abstract

The lack of information before Big Bang Neucleosynthesis (BBN) allow us to assume the presence of a new species φ whose energy density redshifts as a-(4+n) where n>0 and a is the scale factor. This non-standard cosmological setup facilitates a larger portal coupling (ε) between the dark and the visible sectors even when the two sectors are not in thermal equilibrium. Here, we have considered U(1)Lμ-Lτ U(1)X gauge extension of the Standard Model (SM) and studied different phases of the cosmological evolution of a thermally decoupled dark sector such as leak-in, freeze-in, reannihilation, and late-time annihilation in the presence of fast expansion. Due to the tree level kinetic mixing between U(1)X and U(1)Lμ-Lτ gauge bosons, the dark sector couples with the μ and τ flavored leptons of the SM. We show that in our scenario it is possible to reconcile the dark matter relic density and muon (g-2) anomaly. In particular, we show that for 2× 10-4 ε 10-3, 5.5 MeV mZ 200 MeV, n=4, and 1 TeV m 10 TeV relic density constraint of dark matter, constraint from muon (g-2) anomaly, and other cosmological, astrophysical constraints are satisfied.