Toward Astrometric Constraints on a Supermassive Black Hole Binary in the Early-Type Galaxy NGC\,4472

Abstract

The merger of two galaxies, each hosting a supermassive black hole (SMBH) of mass 106\,M or more, could yield a bound SMBH binary. For the early-type galaxy NGC\,4472, we study how astrometry with a next-generation Very Large Array (ngVLA) could be used to monitor the reflex motion of the primary SMBH of mass M pri, as it is tugged on by the secondary SMBH of mass M sec. Casting the orbit of the putative SMBH binary in terms of its period P, semimajor axis a bin, and mass ratio q = M sec / M pri 1, we find the following: (1) Orbits with fiducial periods of P = 4\,yr and 40\,yr could be spatially resolved and monitored. (2) For a 95\% accuracy of 2\,μas per monitoring epoch, sub-parsec values of a bin could be accessed over a range of mass ratios notionally encompassing major (q > 14) and minor (q < 14) galaxy mergers. (3) If no reflex motion is detected for M pri after 1(10)\,yr of monitoring, a SMBH binary with period P = 4(40)\,yr and mass ratio q > 0.01(0.003) could be excluded. This would suggest no present-day evidence for a past major merger like that recently simulated, where scouring by a q 1 SMBH binary formed a stellar core with kinematic traits like those of NGC\,4472. (4) Astrometric monitoring could independently check the upper limits on q from searches for continuous gravitational waves from NGC\,4472.