Second-order reconstruction of the inflationary potential

Abstract

To first order in the deviation from scale invariance the inflationary potential and its first two derivatives can be expressed in terms of the spectral indices of the scalar and tensor perturbations, n and ${\mathit{n}}_{\mathit{T}}$, and their contributions to the variance of the quadrupole CBR temperature anisotropy, S and T. In addition, there is a ‘‘consistency relation’’ between these quantities: ${\mathit{n}}_{\mathit{T}}$=-1/7T/S. We discuss the overall strategy of perturbative reconstruction and derive the second-order expressions for the inflationary potential and its first two derivatives and the first-order expression for its third derivative, all in terms of n, ${\mathit{n}}_{\mathit{T}}$, S, T, and dn/d lnk. We also obtain the second-order consistency relation, ${\mathit{n}}_{\mathit{T}}$=-1/7(T/S)[1+0.11T/S+0.15(n-1)]. As an example we consider the exponential potential, the only known case where exact analytic solutions for the perturbation spectra exist. We reconstruct the potential via Taylor expansion (with coefficients calculated at both first and second order), and introduce the Padé approximant as a greatly improved alternative.