AGN STORM 2. VII. A Frequency-resolved Map of the Accretion Disk in Mrk 817: Simultaneous X-ray Reverberation and UVOIR Disk Reprocessing Time Lags

Collin Lewin, Erin Kara, Aaron J. Barth, Edward M. Cackett, Gisella De Rosa, Yasaman Homayouni, Keith Horne, Gerard A. Kriss, Hermine Landt, Jonathan Gelbord, John Montano, Nahum Arav, Misty C. Bentz, Benjamin D. Boizelle, Elena Dalla Bontà, Michael S. Brotherton, Maryam Dehghanian, Gary J. Ferland, Carina Fian, Michael R. Goad, Juan V. Hernández Santisteban, Dragana Ilić, Jelle Kaastra, Shai Kaspi, Kirk T. Korista, Peter Kosec, Andjelka Kovačević, Missagh Mehdipour, Jake A. Miller, Hagai Netzer, Jack M. M. Neustadt, Christos Panagiotou, Ethan R. Partington, Luka Č. Popović, David Sanmartim, Marianne Vestergaard, Martin J. Ward, Fatima Zaidouni
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Abstract

X-ray reverberation mapping is a powerful technique for probing the innermost accretion disk, whereas continuum reverberation mapping in the UV, optical, and infrared (UVOIR) reveals reprocessing by the rest of the accretion disk and broad-line region (BLR). We present the time lags of Mrk 817 as a function of temporal frequency measured from 14 months of high-cadence monitoring from Swift and ground-based telescopes, in addition to an XMM-Newton observation, as part of the AGN STORM 2 campaign. The XMM-Newton lags reveal the first detection of a soft lag in this source, consistent with reverberation from the innermost accretion flow. These results mark the first simultaneous measurement of X-ray reverberation and UVOIR disk reprocessing lags$\unicode{x2013}$effectively allowing us to map the entire accretion disk surrounding the black hole. Similar to previous continuum reverberation mapping campaigns, the UVOIR time lags arising at low temporal frequencies are longer than those expected from standard disk reprocessing by a factor of 2-3. The lags agree with the anticipated disk reverberation lags when isolating short-timescale variability, namely timescales shorter than the H$\beta$ lag. Modeling the lags requires additional reprocessing constrained at a radius consistent with the BLR size scale inferred from contemporaneous H$\beta$-lag measurements. When we divide the campaign light curves, the UVOIR lags show substantial variations, with longer lags measured when obscuration from an ionized outflow is greatest. We suggest that, when the obscurer is strongest, reprocessing by the BLR elongates the lags most significantly. As the wind weakens, the lags are dominated by shorter accretion disk lags.
agn storm 2.Mrk 817 中吸积盘的频率分辨图:同时进行的 X 射线混响和 UVOIR 盘再处理时滞
X射线混响绘图是探测最内层吸积盘的一种强大技术,而紫外、光学和红外(UVOIR)连续混响绘图则揭示了吸积盘其余部分和宽线区(BLR)的再处理情况。作为 AGN STORM 2 活动的一部分,除了 XMM-Newton 观测之外,我们还利用斯威夫特望远镜和地面望远镜进行了长达 14 个月的高频率监测,测得了 Mrk 817 的时滞与时间频率的函数关系。XMM-牛顿滞后首次发现了该星源的软滞后,这与最内层吸积流的混响是一致的。这些结果标志着首次同时测量了X射线混响和紫外可见光磁盘后处理滞后(unicode{x2013}),使我们能够有效地绘制出围绕黑洞的整个吸积磁盘。与之前的连续混响测绘运动类似,低时间频率产生的紫外红外时滞比标准磁盘后处理的预期时滞长2-3倍。建立滞后模型需要额外的后处理,后处理的半径要与同时进行的 H$\beta$ 滞后测量推断出的 BLR 大小尺度相一致。当我们划分活动光曲线时,UVOIR 滞后显示出巨大的变化,当负离子外流的遮蔽程度最大时,测得的滞后较长。我们认为,当遮挡物最强时,BLR 的后处理会最显著地拉长滞后期。当风力减弱时,滞后期被较短的吸积盘滞后期所主导。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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