Gravitational wave production after inflation for a hybrid inflationary model

Abstract

We discuss a cosmological scenario with a stochastic background of gravitational waves sourced by the tensor perturbation due to a hybrid inflationary model with cubic potential. The tensor-to-scalar ratio for the present hybrid inflationary model is obtained as r ≈ 0.0006. Gravitational wave spectrum of this stochastic background, for large-scale CMB modes, 10-4Mpc-1 to 1Mpc-1 is studied. The present-day energy spectrum of gravitational waves 0gw(f) is sensitively related to the tensor power spectrum and r which is, in turn, dependent on the unknown physics of the early cosmos. This uncertainty is characterized by two parameters: nt(f) logarithmic average over the primordial tensor spectral index and w(f) logarithmic average over the effective equation of state parameter. Thus, exact constraints in the w(f), nt(f) plane can be obtained by comparing theoretical constraints of our model on r and 0gw(f). We obtain a limit on w(10-15Hz)<0.33 around the modes probed by CMB scales.