Reconstructing inflationary potential from BICEP2 and running of tensor modes

Abstract

In this paper we will analyse the constraints on a sub-Planckian excursion of a single inflaton field, which would yield a large tensor to scalar ratio, while explaining the temperature anisotropy of the cosmic microwave background (CMB) radiation. In particular, our attempt will be to reconstruct the inflationary potential by constraining, V(φ0), V(φ0), V(φ0), V(φ0) and V(φ0), in the vicinity of the field, φ0 Mp, and the field displacement, φ Mp, where Mp is the reduced Planck mass. We will provide, for the first time, a set of new consistency relationships for sub-Planckian excursion of the inflaton field, which would help us to differentiate sub-versus-super Planckian models of inflation. For a generic single field inflationary potential, we will be able to put a stringent bound on the potential energy density: 2.07×1016 GeV≤[4]V≤ 2.40× 1016 GeV, where inflation can occur on the flat potential within, 0.066 ≤ |φ|Mp\,≤ 0.092, for the following observational constraints: (Planck+WMAP-9+high L+BICEP2). We then provide a prediction for the spectral tilt (nT), running (αT) and running of running (T) of the tensor modes within the window, -0.019<nT<-0.033, -2.97× 10-4<αT(=dnT/d k)<2.86× 10-5,and -0.11× 10-4<T(=d2nT/d k2)<-3.58× 10-4, in a model independent way. We also provide a simple example of an inflection-point model of inflation and reconstruct the potential in a model independent way to match the current observations.