A Trio of Massive Black Holes Caught in the Act of Merging.

Most local galaxies, if not all, are believed to harbor a massive black hole at the center. Black holes pairs and triples are natural outcomes of the hierarchical galaxy and black hole assembly process. While hundreds of active black hole pairs (i.e., dual active galactic nuclei) and candidates have been found in galaxy mergers, only three kpc-scale triple AGN candidates are known. However, their identification based on optical diagnostic emission-line ratios has been inconclusive. Alternative ionizing sources remain possible such as stellar and shock heating processes. Here we report the discovery of SDSS J0849+1114 as the first triple type-2 Seyfert nucleus known, representing three active black holes identified from new, spatially resolved optical slit spectroscopy. We also present comprehensive new HST UV/IR, Chandra X-ray, and VLA radio observations which, when combined together, strongly suggest that all three nuclei are AGN. While still at kpc-scale separations where the host-galaxy gravitational potential dominates, the black holes may evolve into a bound triple system in <~2 Gyr. Such triple merger systems may explain the overly massive stellar cores observed in some elliptical galaxies such as M87 and are expected to be unique gravitational wave sources. Similar systems may be more common in the early universe when galaxy mergers are thought to be more frequent.