# Quasi-Periodicity of Supermassive Binary Black Hole Accretion   Approaching Merger

**Authors:** Dennis B. Bowen, Vassilios Mewes, Scott C. Noble, Mark Avara, Manuela, Campanelli, and Julian H. Krolik

arXiv: 1904.12048 · 2019-07-17

## TL;DR

This study investigates the quasi-periodic accretion behavior in supermassive binary black holes nearing merger, revealing resonant oscillations and modulation frequencies that could influence their electromagnetic signals.

## Contribution

It extends previous simulations to longer durations, demonstrating how $m=1$ density features induce characteristic accretion modulations in merging supermassive black hole systems.

## Key findings

- Accretion rates are modulated at beat frequencies between binary and lump orbitals.
- Mini-disk masses and accretion rates are strongly modulated at specific frequencies.
- System variability could produce distinctive electromagnetic fluctuations near merger.

## Abstract

In this paper we continue the first ever study of magnetized mini-disks coupled to circumbinary accretion in a supermassive binary black hole (SMBBH) approaching merger reported in Bowen et al. 2018. We extend this simulation from 3 to 12 binary orbital periods. We find that relativistic SMBBH accretion acts as a resonant cavity, where quasi-periodic oscillations tied to the the frequency at which the black hole's orbital phase matches a non-linear $m=1$ density feature, or ``lump'', in the circumbinary accretion disk permeate the system. The rate of mass accretion onto each of the mini-disks around the black holes is modulated at the beat frequency between the binary frequency and the lump's mean orbital frequency, i.e., $\Omega_{\rm beat} = \Omega_{\rm bin} - \bar{\Omega}_{\rm lump}$, while the total mass accretion rate of this equal-mass binary is modulated at two different frequencies, $\gtrsim \bar{\Omega}_{\rm lump}$ and $\approx 2 \Omega_{\rm beat}$. The instantaneous rotation rate of the lump itself is also modulated at two frequencies close to the modulation frequencies of the total accretion rate, $\bar{\Omega}_{\rm lump}$ and $2 \Omega_{\rm beat}$. Because of the compact nature of the mini-disks in SMBBHs approaching merger, the inflow times within the mini-disks are comparable to the period on which their mass-supply varies, so that their masses---and the accretion rates they supply to their black holes---are strongly modulated at the same frequency. In essence, the azimuthal symmetry of the circumbinary disk is broken by the dynamics of orbits near a binary, and this $m=1$ asymmetry then drives quasi-periodic variation throughout the system, including both accretion and disk-feeding. In SMBBHs approaching merger, such time variability could introduce distinctive, increasingly rapid, fluctuations in their electromagnetic emission.

## Full text

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## Figures

15 figures with captions in the complete paper: https://tomesphere.com/paper/1904.12048/full.md

## References

79 references — full list in the complete paper: https://tomesphere.com/paper/1904.12048/full.md

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Source: https://tomesphere.com/paper/1904.12048