Speaker
Description
The asteroid-mass regime is the key remaining window in which primordial black holes could constitute all of dark matter. I will present a new method to probe a substantial portion of this window using X-ray femtolensing. While photometric microlensing requires long observations of very stable compact sources, the energy-dependent features imprinted onto X-ray spectra furnish a clean target with relatively little in the way of astrophysical backgrounds. I will demonstrate that that per-event fringe detection is straightforward for asteroid-mass objects lensing bright compact Galactic sources, meaning that the only bottleneck is the lensing event rate. Remarkably, the ~35 megaseconds of archival data already in hand from RXTE and NICER are sufficient to probe PBH dark matter at masses of order $10^{19}\,{\rm g}$ with existing data. I will further explain how upcoming data will make these bounds substantially more robust even without any dedicated searches.