Search for gravitational waves from high-mass-ratio compact-binary mergers of stellar mass and sub-solar mass black holes

Abstract

We present the first search for gravitational waves from the coalescence of stellar mass and sub-solar mass black holes with masses between 20 - 100~M and 0.01 - 1~M~(10 - 103~MJ), respectively. The observation of a single sub-solar mass black hole would establish the existence of primordial black holes and a possible component of dark matter. We search the 164 days of public LIGO data from 2015-2017 when LIGO-Hanford and LIGO-Livingston were simultaneously observing. We find no significant candidate gravitational-wave signals. Using this non-detection, we place a 90\% upper limit on the rate of 30-0.01~M and 30-0.1~M mergers at <1.2×106 and <1.6×104 ~Gpc-3 yr-1, respectively. If we consider binary formation through direct gravitational-wave braking, this kind of merger would be exceedingly rare if only the lighter black hole were primordial in origin (<10-4~Gpc-3yr-1). If both black holes are primordial in origin, we constrain the contribution of 1 (0.1)~M black holes to dark matter to < 0.3 (3)\%.