par Esser, Nicolas 
Référence Physical Review D, 112, 4, page (1-16), 043021
Publication Publié, 2025-08-01
Référence Physical Review D, 112, 4, page (1-16), 043021
Publication Publié, 2025-08-01
Article révisé par les pairs
| Résumé : | We study a new channel for binary system formation involving stars and stellar-mass primordial black holes (PBHs) embedded in dark matter (DM) minihalos. In this scenario, binaries form when a star passes through the DM minihalo surrounding a PBH and loses sufficient energy due to dynamical friction. The continued energy loss induced by this friction is expected to drive the resulting systems to merge rapidly. We estimate their merger rate and explore the implications for two observables: rapidly decaying X-ray binaries in the Milky Way and gravitational waves sourced by compact object mergers. We find that, for a PBH abundance ΩPBH=ΩDM = 0.01, this mechanism naturally produces a population of O(1) currently observable short-lived X-ray binaries. It also leads to a non-negligible gravitational wave event rate of O(0.3) Gpc−3 yr−1, potentially involving high mass ratios and black holes in the lower or upper mass gap. Notably, most mergers arise in low-mass galaxies, making the latter rate sensitive to the low-mass end of the galaxy stellar mass function. The dynamical friction channel thus offers a plausible explanation for several unusual observations reported in recent years across both the X-ray and gravitational wave domains. |
