Gauge Couplings at High Temperature and the Relic Gravitino Abundance
Abstract
In higher-dimensional supersymmetric theories gauge couplings of the effective four-dimensional theory are determined by expectation values of scalar fields. We find that at temperatures above a critical temperature T*, which depends on the supersymmetry breaking mass scales, gauge couplings decrease like T-, > 1. This has important cosmological consequences. In particular it leads to a relic gravitino density which becomes independent of the reheating temperature for TR > T*. For small gravitino masses, m3/2 m, the mass density of stable gravitinos is essentially determined by the gluino mass. The observed value of cold dark matter, CDMh2 0.1, is obtained for gluino masses m = O(1 TeV).
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