Spectrophotometric Reverberation Mapping of Intermediate-mass Black Hole NGC 4395

Shivangi Pandey, Suvendu Rakshit, Krishan Chand, C. S. Stalin, Hojin Cho, Jong-Hak Woo, Priyanka Jalan, Amit Kumar Mandal, Amitesh Omar, Jincen Jose and Archana Gupta
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Abstract

Understanding the origins of massive black hole seeds and their coevolution with their host galaxy requires studying intermediate-mass black holes (IMBHs) and estimating their mass. However, measuring the masses of these IMBHs is challenging, due to the high-spatial-resolution requirement. Spectrophotometric reverberation monitoring is performed for a low-luminosity Seyfert 1 galaxy, NGC 4395, to measure the size of the broad-line region and black hole mass. The data were collected using the 1.3 m Devasthal fast optical telescope and 3.6 m Devasthal optical telescope at ARIES, Nainital, over two consecutive days in 2022 March. The analysis revealed strong emission lines in the spectra and light curves of the merged 5100 Å spectroscopic continuum flux (f5100) with the photometric continuum V band and Hα, with fractional variabilities of 6.38% and 6.31% respectively. In comparison to several previous studies with lag estimation <90 minutes, our calculated Hα lag supersedes them by minutes, using the ICCF and JAVELIN methods. The velocity dispersion (σline) of the broad-line clouds is measured to be km s−1, yielding a black hole mass of ∼ and an Eddington ratio of 0.06.
中质量黑洞 NGC 4395 的分光光度法混响绘图
要了解大质量黑洞种子的起源及其与宿主星系的共同演化,就必须研究中等质量黑洞(IMBHs)并估算它们的质量。然而,由于对高空间分辨率的要求,测量这些中间质量黑洞的质量具有挑战性。对一个低照度的赛弗特1星系NGC 4395进行了分光光度混响监测,以测量宽线区的大小和黑洞质量。数据是在 2022 年 3 月连续两天使用位于奈尼塔尔的 ARIES 的 1.3 米 Devasthal 快速光学望远镜和 3.6 米 Devasthal 光学望远镜收集的。分析结果显示,5100 Å 光谱连续通量(f5100)与测光连续通量 V 波段和 Hα 的合并光谱和光变曲线中存在强发射线,其分数变率分别为 6.38% 和 6.31%。与之前采用 ICCF 和 JAVELIN 方法进行的滞后估计小于 90 分钟的几项研究相比,我们计算出的 Hα 滞后时间比它们高出几分钟。宽线云的速度弥散(σ线)测量值为千米秒-1,得出黑洞质量为 ∼,爱丁顿比为 0.06。
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