Testing the Hypothesis that the Quasar J0950+5128 Harbors a Supermassive Black Hole Binary

Niana N. Mohammed, Jessie C. Runnoe, Michael Eracleous, Tamara Bogdanović, Daniel Stern, Joseph Simon, Maria Charisi, T. Joseph W. Lazio, Kaitlyn Szekerczes, Steinn Sigurdsson, Collin Dabbieri

Published 2025-05-09Version 1

Spectroscopic observations of the quasar J0950+5128 spanning 22 years show that its broad H$\beta$ emission line displays monotonic radial velocity variations consistent with those expected from a supermassive binary. At the same time, the profile of the broad H$\beta$ line is changing, necessitating careful measurements. We present robust measurements of the broad H$\beta$ velocity shifts. We fit the spectra with a multi-component parametric model to isolate the broad H$\beta$ by removing the stellar and non-stellar continua, the Fe ii line blends, and various narrow and broad emission lines in its vicinity. We measure the H$\beta$ velocity shifts via cross-correlation, both before and after decomposing the spectra, and we demonstrate that they can be reliably measured in spite of variations in the line profiles. We incorporate radial velocity "jitter" into the radial velocity curve to emulate typical quasar variability, and fit the curve with a Keplerian orbit model. The fit yields a period of 33 years and an eccentricity of 0.65, with lower limits on the semi-major axis and black hole mass of $10^{-2}$ pc and $10^7\ M_\odot$, respectively. Thus, this quasar is a compelling supermassive binary candidate. Continued monitoring is essential to further evaluate its credentials.