http://arxiv.org/abs/1910.05348
We examine the light curves of two quasars, motivated by recent suggestions that a supermassive black hole binary (SMBHB) can exhibit sharp lensing spikes. We model the variability of each light curve as due to a combination of two relativistic effects: the orbital relativistic Doppler boost and gravitational binary self-lensing. In order to model each system we extend previous Doppler plus self-lensing models to include eccentricity. The first quasar is identified in optical data as a binary candidate with a 20-yr period (Ark 120), and shows a prominent spike. For this source, we rule out the lensing hypothesis, because if the observed sinusoid-like variability is attributed to Doppler shifts caused by the orbital motion, it would require a total BH mass in excess of $10^{12}$ solar masses. The second source, which we nickname Spikey, is the rare case of an active galactic nucleus (AGN) identified in Kepler’s high-quality, high-cadence photometric data. For this source, we find a model, consisting of a combination of Doppler modulation and a narrow symmetric lensing spike, consistent with an eccentric SMBH binary with mass $M_{\text{tot}} = 5.4\times10^{7}$ solar masses, rest-frame orbital period $T=422$ days, eccentricity $e=0.6$, and seen at an inclination $9^{\circ}$ from edge-on. This interpretation can be tested by monitoring Spikey for periodic behavior and recurring flares in the next few years. In preparation for such monitoring we present the first X-ray observations of this object taken by the Neil Gehrels Swift observatory.
B. Hu, D. D’Orazio, Z. Haiman, et. al.
Tue, 15 Oct 19
71/90
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