Primordial black holes and scalar-induced gravitational waves from the perturbations on the inflaton potential in peak theory

Abstract

A perturbation on the background inflaton potential can lead inflation into the ultraslow-roll stage and can thus remarkably enhance the power spectrum P R(k) of the primordial curvature perturbation on small scales. Such an enhanced P R(k) will result in primordial black holes (PBHs), contributing a significant fraction of dark matter, and will simultaneously generate sizable scalar-induced gravitational waves (SIGWs) as a secondorder effect. In this work, we calculate the PBH abundances f PBH(M) and SIGW spectra GW(f) in peak theory. We obtain the PBHs with desirable abundances in one or two typical mass windows at 10-17\, M, 10-13\, M, and 30\, M, respectively. At the same time, the relevant SIGWs are expected to be observed by the next-generation gravitational wave detectors, without spoiling the current constraint. Especially, the SIGW associated with the PBH of 30\, M can also interpret the potential isotropic stochastic gravitational wave background from the NANOGrav 12.5-year dataset.