Mapping the Inner Structure of Quasars with Time-Domain Spectroscopy

Yue Shen; Scott Anderson; Edo Berger; W.N. Brandt; Gisella De Rosa,; Xiaohui Fan; Laura Ferrarese; Suvi Gezari; Matthew Graham; Jenny Greene,; Catherine J. Grier; Josh Grindlay; Daryl Haggard; Patrick B. Hall; Luis Ho,; Hector Ibarra Medel; Dragana Ilic; Zeljko Ivezic; Jacob Jencson; Linhua; Jiang; St\'ephanie Juneau; Mansi Kasliwal; Juna Kollmeier; Alexander Kutyrev,; Jennifer I-Hsiu Li; Guilin Liu; Xin Liu; Chelsea MacLeod; Gary Melnick; Brian; Metzger; Adam D. Myers; Christopher O'Dea; Andreea Petric; Luka \v{C}.; Popovi\'c; Abhishek Prakash; Bill Purcell; Gordon T. Richards; George Rieke,; Nial Tanvir; Benny Trakhtenbrot; Michael Wood-Vasey; Yongquan Xue; Qian Yang

arXiv:1903.04533·astro-ph.GA·March 13, 2019·1 cites

Mapping the Inner Structure of Quasars with Time-Domain Spectroscopy

Yue Shen, Scott Anderson, Edo Berger, W.N. Brandt, Gisella De Rosa,, Xiaohui Fan, Laura Ferrarese, Suvi Gezari, Matthew Graham, Jenny Greene,, Catherine J. Grier, Josh Grindlay, Daryl Haggard, Patrick B. Hall, Luis Ho,, Hector Ibarra Medel, Dragana Ilic, Zeljko Ivezic

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TL;DR

This paper discusses how time-domain spectroscopy of quasars reveals their inner structures and physics, emphasizing the importance of upcoming optical-infrared spectroscopic surveys for reverberation mapping and studying extreme variability.

Contribution

It highlights the critical role of time-domain spectroscopy in understanding quasar structures and advocates for dedicated future survey facilities to advance this research.

Findings

01

Reverberation mapping measures broad-line region sizes and black hole masses.

02

Spectroscopic follow-up captures extreme quasar variability events.

03

Upcoming surveys will enable detailed quasar structure studies at high redshifts.

Abstract

The ubiquitous variability of quasars across a wide range of wavelengths and timescales encodes critical information about the structure and dynamics of the circumnuclear emitting regions that are too small to be directly resolved, as well as detailed underlying physics of accretion and feedback processes in these active supermassive black holes. We emphasize the importance of studying quasar variability with time-domain spectroscopy, focusing on two science cases: (1) reverberation mapping (RM) to measure the broad-line region sizes and black hole masses in distant quasars; (2) spectroscopic follow-up of extreme variability quasars that dramatically change their continuum and broad-line flux within several years. We highlight the need for dedicated optical-infrared spectroscopic survey facilities in the coming decades to accompany wide-area time-domain imaging surveys, including: (1)…

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Taxonomy

TopicsAstronomy and Astrophysical Research · Galaxies: Formation, Evolution, Phenomena · Stellar, planetary, and galactic studies