Black hole mass estimate in OJ 287 based on the bulk-motion comptonization model
Sergey Kuznetsov, Lev Titarchuk
arXiv:2403.17267v1 Announce Type: new
Abstract: The multi-wavelength outburst activity in the BL Lacertae source OJ 287 has sparked a lot of controversy about whether the source contains one or two black holes (BHs) and what characteristics of this black hole binary would be. In this article we present the results of analysis of the X-ray flaring activity of OJ 287 using the data of Swift/XRT observations. We discovered that the energy spectra in all spectral states can be adequately fit with the XSPEC BMC model (the Comptonization one). As a result we found that the X-ray photon index of the BMC model, $Gamma$ correlates with the mass accretion rate, $dot M$. We found the photon index $Gamma$ to increase monotonically with accretion rate $dot M$ from $Gammasim 2$ in the intermediate state (IS) to $Gammasim2.5$ the high/soft state (HSS) with subsequent saturation at $Gammasim$ 2.6 level at higher luminosities. This type of behavior of the spectral index is remarkably similar to the pattern observed in a number of established stellar-mass black hole candidates. Assuming the universality of the observed pattern of the correlation between the photon index and mass accretion rate, we estimate the BH mass in OJ 287 to be around $2times10^8$ solar masses, using the well studied BH binaries GX 339-4 and XTE J1859-226 to calibrate the model.arXiv:2403.17267v1 Announce Type: new
Abstract: The multi-wavelength outburst activity in the BL Lacertae source OJ 287 has sparked a lot of controversy about whether the source contains one or two black holes (BHs) and what characteristics of this black hole binary would be. In this article we present the results of analysis of the X-ray flaring activity of OJ 287 using the data of Swift/XRT observations. We discovered that the energy spectra in all spectral states can be adequately fit with the XSPEC BMC model (the Comptonization one). As a result we found that the X-ray photon index of the BMC model, $Gamma$ correlates with the mass accretion rate, $dot M$. We found the photon index $Gamma$ to increase monotonically with accretion rate $dot M$ from $Gammasim 2$ in the intermediate state (IS) to $Gammasim2.5$ the high/soft state (HSS) with subsequent saturation at $Gammasim$ 2.6 level at higher luminosities. This type of behavior of the spectral index is remarkably similar to the pattern observed in a number of established stellar-mass black hole candidates. Assuming the universality of the observed pattern of the correlation between the photon index and mass accretion rate, we estimate the BH mass in OJ 287 to be around $2times10^8$ solar masses, using the well studied BH binaries GX 339-4 and XTE J1859-226 to calibrate the model.