Thermal Inflation and the Moduli Problem
Abstract
In supersymmetric theories a field can develop a vacuum expectation value M 103\, GeV, even though its mass m is of order 102 to 103\, GeV. The finite temperature in the early Universe can hold such a field at zero, corresponding to a false vacuum with energy density V0 m2 M2 . When the temperature falls below V01/4, the thermal energy density becomes negligible and an era of thermal inflation begins. It ends when the field rolls away from zero at a temperature of order m, corresponding to of order 10 e-folds of inflation which does not affect the density perturbation generated during ordinary inflation. Thermal inflation can solve the Polonyi/moduli problem if M is within one or two orders of magnitude of 1012\, GeV.
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