The Maximal Gravitational Wave Signal from Asteroid-Mass Primordial Black Hole Mergers

Primordial black holes can be the entirety of the dark matter in a broad, approximately five-orders-of-magnitude-wide mass range, the ``asteroid mass range'', between $10^{-16}\ M_{\rm Sun}$ -- where constraints originate from evaporation -- and $10^{-11}\ M_{\rm Sun}$ -- from microlensing. A direct detection in this mass range is very challenging with any known observational or experimental methods. Here we point out that, unlike previously asserted in the literature, a transient gravitational wave signal from the inspiral phase of light black hole mergers is in principle detectable with current and future high-frequency gravitational wave detectors, including but not limited to ADMX. The largest detection rates are associated with binaries from non-monochromatic mass functions in early-formed three-body systems.