TY - JOUR
T1 - Continuum reverberation mapping of accretion disks surrounding supermassive black hole binaries
T2 - observational signatures
AU - Fu, Yi-Xin
AU - Li, Yan-Rong
AU - Wang, Jian-Min
AU - Horne, Keith
AU - Santisteban, Juan V. Hernández
AU - Vieliute, Roberta
AU - Edelson, Rick
AU - Liu, Tingting
AU - Brotherton, Michael S.
AU - Popović, Luka Č.
AU - Kovačević, Andjelka B.
AU - Zhai, Shuo
N1 - Funding: YRL acknowledges financial support from the the National Natural Science Foundation of China (12273041), from the National Key R&D Programme of China (2023YFA1607904), from the Youth Innovation Promotion Association CAS, and from the China Manned Space Project (CMS-CSST-2025-A07). JMW acknowledges financial support from the National Key R&D Programme of China (2021YFA1600404) and from the National Natural Science Foundation of China (12333003). RV acknowledges financial support from the STFC studentship ST/Y509589/1. ABK, LČP acknowledge funding provided by the University of Belgrade - Faculty of Mathematics (the contract 451-03-136/2025-03/200104), Astronomical Observatory Belgrade (the contract 451-03-136/2025-03/200002).
PY - 2025/11/1
Y1 - 2025/11/1
N2 - It has remained challenging to reliably identify sub-parsec supermassive black hole binaries (SMBHBs), despite them being expected to be ubiquitous. We propose a new method using multiband continuum reverberation mapping to identify low-massratio SMBHBs in active galactic nuclei. The basic principle is that, due to the presence of a low-density cavity between the mini-discs and the circumbinary disc, the continuum emissions show a deficit at certain wavelengths, leading to a distinguishing feature in the relation between the inter-band time lag and wavelengths τ(λ). Specifically, the relation appears flat at short wavelengths because of the truncated sizes of the mini-discs and transits to a power law λ4/3 at long wavelength stemming from the circumbinary disc. This transition feature is distinct from the uniform relation λ4/3 of the standard accretion disc around a single black hole. Using the lamp-post scenario and assuming that only the secondary black hole is active in a low-mass-ratio SMBHB, we design a simple continuum reverberation model to calculate the transfer function of the accretion discs and the resulting τ(λ) relations for various SMBHB orbital parameters. The transition wavelength typically can lie at UV/optical bands, mainly depending on the total mass and orbital separation of the SMBHB. We apply our SMBHB model to the intensive multiwavelength monitoring data of the SMBHB candidate PG1302–102 and find that the SMBHB model can reproduce the inter-band time lags. Remarkably, the inferred total mass and orbital period from the SMBHB fitting are consistent with values derived from other independent methods.
AB - It has remained challenging to reliably identify sub-parsec supermassive black hole binaries (SMBHBs), despite them being expected to be ubiquitous. We propose a new method using multiband continuum reverberation mapping to identify low-massratio SMBHBs in active galactic nuclei. The basic principle is that, due to the presence of a low-density cavity between the mini-discs and the circumbinary disc, the continuum emissions show a deficit at certain wavelengths, leading to a distinguishing feature in the relation between the inter-band time lag and wavelengths τ(λ). Specifically, the relation appears flat at short wavelengths because of the truncated sizes of the mini-discs and transits to a power law λ4/3 at long wavelength stemming from the circumbinary disc. This transition feature is distinct from the uniform relation λ4/3 of the standard accretion disc around a single black hole. Using the lamp-post scenario and assuming that only the secondary black hole is active in a low-mass-ratio SMBHB, we design a simple continuum reverberation model to calculate the transfer function of the accretion discs and the resulting τ(λ) relations for various SMBHB orbital parameters. The transition wavelength typically can lie at UV/optical bands, mainly depending on the total mass and orbital separation of the SMBHB. We apply our SMBHB model to the intensive multiwavelength monitoring data of the SMBHB candidate PG1302–102 and find that the SMBHB model can reproduce the inter-band time lags. Remarkably, the inferred total mass and orbital period from the SMBHB fitting are consistent with values derived from other independent methods.
KW - Accretion
KW - Accretion discs
KW - Black hole physics
KW - Quasars: supermassive black holes
U2 - 10.1093/mnras/staf1473
DO - 10.1093/mnras/staf1473
M3 - Article
SN - 0035-8711
VL - 543
SP - 2093
EP - 2115
JO - Monthly Notices of the Royal Astronomical Society
JF - Monthly Notices of the Royal Astronomical Society
IS - 3
ER -