Search for Supermassive Black Hole Binaries in the Sloan Digital Sky Survey Spectroscopic Sample

TL;DR

This study searches for supermassive black hole binaries in SDSS quasars by analyzing velocity shifts in emission lines, finding limited candidates and constraining their prevalence and evolution, with implications for future surveys.

Contribution

It introduces a novel cross-correlation method to detect SMBH binaries via velocity shifts and constrains their abundance and evolution in quasars.

Findings

Identified 7 candidate SMBH binaries with significant velocity shifts.

Ruled out most 10^9 Msun BHs are in close binaries at certain scales.

Future surveys could improve detection and constrain binary evolution models.

Abstract

Supermassive black hole (SMBH) binaries are expected in a Lambda CDM cosmology given that most (if not all) massive galaxies contain a massive black hole at their center. So far, however, direct evidence for such binaries has been elusive. We use cross-correlation to search for temporal velocity shifts in the MgII broad emission lines of 0.36 < z < 2 quasars with multiple observations in the Sloan Digital Sky Survey. For ~ 10^9 Msun BHs in SMBH binaries, we are sensitive to velocity drifts for binary separations of ~ 0.1 pc with orbital periods of ~100 years. We find seven candidate sub-pc--scale binaries with velocity shifts > 3.4 sigma ~ 280 km/s, where sigma is our systematic error. Comparing the detectability of SMBH binaries with the number of candidates (N < 7), we can rule out that most 10^9 Msun BHs exist in ~ 0.03-0.2 pc scale binaries, in a scenario where binaries stall at sub-pc scales for a Hubble time. We further constrain that < one-third of quasars host SMBH binaries after considering gas-assisted sub-pc evolution of SMBH binaries, although this result is very sensitive to the assumed size of the broad line region. We estimate the detectability of SMBH binaries with ongoing or next-generation surveys (e.g., BOSS, Subaru Prime Focus Spectrograph), taking into account the evolution of the sub-parsec binary in circumbinary gas disks. These future observations will provide longer time baselines for searches similar to ours and may in turn constrain the evolutionary scenarios of SMBH binaries.