赛弗星系 NGC 1566 中超大质量黑洞双星的引力自透镜证据

Wolfram Kollatschny, Doron Chelouche
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摘要

人们普遍认为,所有大质量星系的中心都有超大质量黑洞(BHs),两个星系的合并会导致BH双星的形成。其中最引人关注的是最终状态下的合并,也就是轨道间隔为等距(3.2 光年)或次等距的合并。利用双星自透镜可以探测到这些系统。在这里,我们报告了在活动星系(AGN)NGC1566中根据自激光爆发可能探测到的中心超大质量BH双星。这次爆发的光变曲线是根据 "超新星全天空自动巡天"(All Sky Automated Survey for SuperNovae)的观测结果绘制的,从2017年初一直持续到2020年初。陡峭的对称光曲线及其形状看起来与 AGN 的正常随机变化非常不同。根据这条光变曲线,我们得出了一个 155 天的时间刻度。在爆发期间,连续波和宽线强度都发生了变化,但窄发射线却没有变化。这表明透镜天体在宽线区(BLR)和窄线区(NLR)之间围绕 AGN 核运行,即距离在 250 光天左右。质量为 5*10^{5} M_solar的透镜可以重现这条光变曲线。M_solar。这意味着与中心 AGN 的质量比约为 1 比 10。
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Evidence for gravitational self-lensing of the central supermassive black hole binary in the Seyfert galaxy NGC 1566
It is generally accepted that all massive galaxies host supermassive black holes (BHs) in their center and that mergers of two galaxies lead to the formation of BH binaries. The most interesting among them comprise the mergers in their final state, that is to say with parsec (3.2 light years) or sub-parsec orbital separations. It is possible to detect these systems with binary self-lensing. Here we report the potential detection of a central supermassive BH binary in the active galaxy (AGN) NGC1566 based on a microlensing outburst. The light curve of the outburst - based on observations with the All Sky Automated Survey for SuperNovae - lasted from the beginning of 2017 until the beginning of 2020. The steep symmetric light curve as well as its shape look very different with respect to normal random variations in AGN. However, the observations could be easily reproduced with a best-fit standard microlensing light curve. Based on the light curve, we derived a characteristic timescale of 155 days. During the outburst, the continuum as well as the broad line intensities varied; however, the narrow emission lines did not. This is an indication that the lensing object orbits the AGN nucleus between the broad line region (BLR) and the narrow line region (NLR), that is, at a distance on the order of 250 light days. The light curve can be reproduced by a lens with a BH mass of 5*10^{5} M_solar. This implies a mass ratio to the central AGN on the order of 1 to 10.
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