Frequency and Abundance of Binary sUpermassive bLack holes from Optical Variability Surveys (FABULOVS): Hubble Space Telescope Imaging of Radial-Velocity Selected Binary Candidates

TL;DR

This study uses Hubble Space Telescope imaging to investigate the host galaxy morphologies of candidate sub-pc binary supermassive black holes, finding no significant difference in disturbance compared to normal quasars, thus questioning current formation models.

Contribution

First direct imaging analysis of candidate sub-pc BSBHs' host galaxies, testing merger-related predictions with a novel spectroscopic selection method.

Findings

Candidate BSBH hosts do not show higher disturbance than control quasars.

No significant difference in host galaxy morphology between BSBH candidates and typical quasars.

Results suggest possible longer timescales for BSBH formation or limitations of velocity-offset selection.

Abstract

Sub-parsec (sub-pc) binary supermassive black holes (BSBHs) should be common from galaxy mergers, yet direct evidence has been elusive. We present HST/WFC3IR F160W imaging for a sample of 8 candidate sub-pc BSBHs at redshifts z~0.1--0.5, as well as cross-comparison with a sample of ordinary quasars with archival HST/WFC3 IR F160W images. These 8 candidate sub-pc BSBHs were identified from multi-epoch spectroscopic surveys of quasars (including both typical quasars and those with single-peaked velocity-offset broad lines). whose broad H$\beta$ lines are significantly offset (by ~< a few hundred km/s) from the systemic redshifts. We directly test the prediction that the host galaxies of BSBHs would have a higher fraction of disturbed morphologies and younger stellar bulges from recent interactions than those of control quasars. After careful subtraction of the central quasar light, our candidate BSBH hosts show a statistically undifferentiated distribution of host asymmetry, indicative of a similar fraction of recent mergers. While a significantly larger sample is needed to place this result on a much firmer statistical ground, it opens questions as to the timescale differences between galaxy merger and BSBH formation, or the efficacy of the radial-velocity-shift--based selection of sub-pc BSBH candidates.