μ-hybrid Inflation, Gravitino Dark Matter and Stochastic Gravitational Wave Background from Cosmic Strings

Abstract

We present a successful realization of supersymmetric μ-hybrid inflation model based on a gauged U(1)B-L extension of the minimal supersymmetric standard model, with the soft supersymmetry breaking terms are playing an important role. Successful non-thermal leptogenesis with gravitino dark matter yields a reheat temperature in the range 2 × 107 TR 5 × 109 GeV. This corresponds to the predictions 2 × 10-18 r 4 × 10-13 for the tensor to scalar ratio, and -2 × 10-6 dns/d k -5 × 10-11 for the running of the scalar spectral index. The B-L breaking scale is estimated as 6 × 1014 M/ GeV 1016, calculated at the central value of the scalar spectral index, ns =0.9655, reported by Planck 2018. Finally, in a grand unified theory setup the dimensionless string tension parameter associated with the metastable strings is in the range 10-9 Gμcs 10-6 corresponding to a stochastic gravitational wave background lying within the 2σ bound of the recent NANOGrav 12.5-yr data.