Higgs Inflation in f(,R) Theory

Abstract

We generalize the scalar-curvature coupling model 2 R of Higgs inflation to a Rb to study inflation. We compute the amplitude and spectral index of curvature perturbations generated during inflation and fix the parameters of the model by comparing these with the Planck+WP data. We find that if the scalar self coupling λ is in the range (10-5-0.1), parameter a in the range (2.3 -3.6) and b in the range (0.77-0.22) at the Planck scale, one can have a viable inflation model even for 1. The tensor to scalar ratio r in this model is small and our model with scalar-curvature couplings is not ruled out by observational limits on r unlike the pure λ4 4 theory. By requiring the curvature coupling parameter to be of order unity, we have evaded the problem of unitarity violation in scalar-graviton scatterings which plague the 2 R Higgs inflation models. We conclude that the Higgs field may still be a good candidate for being the inflaton in the early universe if one considers higher dimensional curvature coupling.