Primordial black holes and scalar induced density perturbations: the effects of probability density functions

Abstract

We investigate the second order energy density perturbation δ(2) induced by small-scale Gaussian and local-type non-Gaussian primordial curvature perturbations. The relative abundance of primordial black hole is calculated in terms of the probability density function of total energy density perturbation δr=δ(1)+12δ(2). The effects of second order density perturbation greatly reduce the upper bounds of small-scale power spectra of primordial curvature perturbations by one to two orders of magnitude. For log-normal primordial power spectrum, its amplitude Aζ is constrained to be about Aζ 3×10-3. And for local-type non-Gaussianity with fNL=10, the upper bound of Aζ is about 2.5×10-4.