Consistency relation for the Lorentz invariant single-field inflation

Abstract

In this paper we compute the sizes of equilateral and orthogonal shape bispectrum for the general Lorentz invariant single-field inflation. The stability of field theory implies a non-negative square of sound speed which leads to a consistency relation between the sizes of orthogonal and equilateral shape bispectrum, namely fNLorth. -0.054 fNLequil.. In particular, for the single-field Dirac-Born-Infeld (DBI) inflation, the consistency relation becomes fNLorth. 0.070 fNLequil. 0. These consistency relations are also valid in the mixed scenario where the quantum fluctuations of some other light scalar fields contribute to a part of total curvature perturbation on the super-horizon scale and may generate a local form bispectrum. A distinguishing prediction of the mixed scenario is τNLloc.>(6 5fNLloc.)2. Comparing these consistency relations to WMAP 7yr data, there is still a big room for the Lorentz invariant inflation, but DBI inflation has been disfavored at more than 68% CL.