Cosmic radiation backgrounds from primordial black holes

Abstract

Recent measurements of the cosmic X-ray and radio backgrounds (CXB/CRB, respectively) obtained with Chandra and ARCADE2 report signals in excess of those expected from known sources, suggesting the presence of a yet undiscovered population of emitters. We investigate the hypothesis that such excesses are due to primordial black holes (PBHs) which may constitute a substantial fraction of dark matter (DM). We present a novel semi-analytical model which predicts X-ray and radio emission due to gas accretion onto PBHs, assuming that they are distributed both inside DM halos and in the intergalactic medium (IGM). Our model includes a self-consistent treatment of heating/ionization feedback on the surrounding environment. We find that (i) the emission from PBHs accreting in the IGM is subdominant at all times (1\% ≤ I IGM/I tot ≤ 40\% ); (ii) most of the CXB/CRB emission comes from PBHs in DM mini-halos (Mh ≤ 106\ M) at early epochs (z>6). While a small fraction (f PBH 0.3\%) of DM in the form of PBHs can account for the total observed CXB excess, the CRB one cannot be explained by PBHs. Our results set the strongest existing constraint on f PBH ≤ 3× 10-4\ (30/M PBH) in the mass range 1-1000\, M. Finally, we comment on the implications of our results on the global HI 21cm signal.