Galaxy fields of LISA massive black hole mergers in a simulated Universe

Abstract

LISA will extend the search for gravitational waves (GWs) at 0.1\,-\,100 mHz where loud signals from coalescing binary black holes of 104 \,-\,107\, M are expected. Depending on their mass and luminosity distance, the uncertainty in the LISA sky-localization decreases from hundreds of deg2 during the inspiral phase to fractions of a deg2 after the merger. By using the semi-analytical model L-Galaxies applied to the Millennium-I merger trees, we generate a simulated Universe to identify the hosts of z\,≤\,3 coalescing binaries with total mass of 3\,×\,105, 3\,×\,106 and 3\,×\,107 M, and varying mass ratio. We find that, even at the time of merger, the number of galaxies around the LISA sources is too large (\,102) to allow direct host identification. However, if an X-ray counterpart is associated to the GW sources at z\,<\,1, all LISA fields at merger are populated by \,10 AGNs emitting above \, 10-17 \, erg\,cm-2\,s-1. For sources at higher redshifts, the poorer sky-localization causes this number to increase up to \, 103. Archival data from eRosita will allow discarding \, 10\% of these AGNs, being too shallow to detect the dim X-ray luminosity of the GW sources. Inspiralling binaries in an active phase with masses \,106 M at z\,≤\,0.3 can be detected, as early as 10 hours before the merger, by future X-ray observatories in less than a few minutes. For these systems, \,10 AGNs are within the LISA sky-localization area. Finally, the LISA-Taiji network would guarantee the identification of an X-ray counterpart 10 hours before merger for all binaries at z\,\,1.

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