CMB constraints on ultra-light primordial black holes with extended mass distributions

Abstract

We examine the effects ultra-light primordial black holes (PBHs) have on the anisotropies of the cosmic microwave background (CMB). PBHs in the mass range of 1015 to 1017 g emit Hawking radiation in the early Universe, modifying the standard recombination history. This leads to a damping of small-scale temperature and polarisation anisotropies and enhances large-scale polarisation fluctuations. As some models of inflation predict PBHs with a range of masses, we investigate the impacts of extended mass distributions on PBH abundance constraints. We model PBH energy injection using a ground-up approach incorporating species-dependent deposition efficiencies. By allowing the parameters to vary simultaneously with the PBH fraction and mass, we show that exclusion bounds on the PBH fraction of DM fPBH are relaxed by up to an order of magnitude, compared to the case of fixed parameters. We also give 95% exclusion regions for fPBH for a variety of mass distributions. In particular, for a uniform mass distribution between 1015 and 1017 g, we find fPBH < 1.6 × 10-5 when allowing parameters to vary.