Search for Sub-Solar Mass Binaries in the First Part of LIGO's Fourth Observing Run

Abstract

We report the first results of a sub-solar mass compact binary search using the data from the first part of the fourth observing run (O4a) of the Advanced LIGO detectors. Sub-solar mass neutron stars and black holes are not expected to form via standard stellar evolution, and their observation would signify a new class of astrophysical objects or the discovery of a component of dark matter. Our search covers binaries with primary masses 0.1 to 2 M and secondary masses 0.1 to 1 M. We explicitly incorporate tidal effects up to 7×105 for extremely low mass neutron stars. Due to the recent development of efficient ratio filter de-chirping frameworks, this search consisting of 25 million templates is now computationally feasible. No statistically significant candidates are identified. We place a 90\% confidence upper limit on the merger rate R90 for sub-solar mass black holes to be < 2.5×104\,Gpc-3 yr-1 for a chirp mass of 0.2 M. We place the first constraints for binary neutron stars with tidal deformabilities up to 7×105 and improve the merger rate estimate by a factor 3 in comparison to previous O3 tidal searches for tidal deformabilities < 104. The advanced sensitivity of the O4a run enables an improvement in the sub-solar mass black hole merger rate limits by more than 2 × over the previous three observing runs (O1-O3) combined. We constrain the effective local dark matter fraction to be fPBH<0.5\% for 0.4 MPBH, approximately 1.8 times lower than the previous O1-O3 constraints. Given our model assumptions, our local dark matter fraction constraints are 2-10 times lower than the OGLE microlensing survey for MPBH0.25.