The Curvature Perturbation in the Axion-type Curvaton Model

Abstract

We study the axion-type curvaton model, with emphasis on the large field regime where analytic results are very difficult to obtain. We evaluate the tensor-scalar ratio r using WMAP normalization and the non-linearity parameters fNL and gNL by solving the equations numerically using the δ N formalism. We compare them with results for the curvaton with quadratic potential. We find that r is much smaller for the axion-type case compared to the result from the quadratic potential, with the difference increasingly more pronounced at larger field values. gNL is found to be positive, unlike the quadratic case where it is negative, and the amplitude of gNL is much larger. Moreover, there is a nearly linear scaling between gNL and fNL, with small deviation from linearity at large field values. The slope between gNL and fNL depends on the parameters characterizing the axion-type curvaton model. We further consider a mixed scenario where both the inflaton and the curvaton contribute to the primordial power spectrum and the non-Gaussianity parameters are found to be much larger than those in the case with quadratic potential.