Constraining the PG 1553+113 binary hypothesis: interpreting hints of a new, 22-year period (2307.11696v2)

Abstract: PG 1553+113 is a well-known blazar exhibiting evidence of a $\sim! 2.2$-yr quasi-periodic oscillation (QPO) in radio, optical, X-ray, and $\gamma$-ray bands. Since QPO mechanisms often predict multiple QPOs, we search for a second QPO in its historical optical light curve covering a century of observations. Despite challenging data quality issues, we find hints of a $21.8 \pm 4.7$ yr oscillation. On its own, this $\sim! 22$-yr period has a modest statistical significance of $1.6\sigma$ when accounting for the look-elsewhere effect. However, the joint significance of both the $2.2$- and $22$-yr periods arising from colored noise alone is $\sim 3.6\sigma$. The next peak of the 22-yr oscillation is predicted to occur around July 2025. We find that such a $\sim\,$10:1 relation between two periods can arise in the gas dynamics of a plausible supermassive black hole binary model of PG 1553+113. While the 22-yr QPO is preliminary, an interpretation of PG 1553+113's two QPOs in this binary model suggests that the binary engine has a mass ratio $\gtrsim 0.2$, an eccentricity $\lesssim 0.1$, and accretes from a disk with characteristic aspect ratio $\sim 0.03$. The putative binary radiates nHz gravitational waves, but the amplitude is $\sim10-100$ times too low for detection by foreseeable pulsar timing arrays.