Light Dark Matter from Entropy Dilution

Light Dark Matter from Entropy Dilution

Blog Article

Abstract luce chandelier We show that a thermal relic which decouples from the standard model (SM) plasma while relativistic can be a viable dark matter (DM) candidate, if the decoupling is followed by a period of entropy dilution that heats up the SM, but not the dark sector.Such diluted hot relics can be as light as few keV, while accounting for the entirety of the DM, and not conflicting with cosmological and astrophysical measurements.The requisite dilution can be achieved via decays of a heavy state that dominates the energy budget of the universe in the early matter dominated era.The heavy state decays into jerome brown jersey the SM particles, heats up the SM plasma, and dilutes the hidden sector.The interaction required to equilibrate the two sectors in the early universe places a bound on the maximum possible dilution as a function of the decoupling temperature.

As an example of diluted hot relic DM we consider a light Dirac fermion with a heavy dark photon mediator.We present constraints on the model from terrestrial experiments (current and future), astrophysics, and cosmology.