Freeze-in bino dark matter in high scale supersymmetry

Abstract

We explore a scenario of high scale supersymmetry where all supersymmetric particles except gauginos stay at a high energy scale M SUSY which is much larger than the reheating temperature TRH. The dark matter is dominated by bino component with mass around the electroweak scale and the observed relic abundance is mainly generated by the freeze-in process during the early universe. Considering the various constraints, we identify two available scenarios in which the supersymmetric sector at an energy scale below TRH consists of: a) bino; b) bino and wino. Typically, for a bino mass around 0.1-1 TeV and a wino mass around 2 TeV, we find that M SUSY should be around 1012-14 GeV with TRH around 104-6 GeV.