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High Redshift Obscured Quasars and the Need for Optical to NIR, Massively Multiplexed, Spectroscopic Facilities

Authors :
Petric, Andreea
Lacy, Mark
Juneau, Stéphanie
Shen, Yue
Fan, Xiaohui
Flagey, Nicolas
Gordon, Yjan
Haggard, Daryl
Hall, Patrick B.
Hathi, Nimish
Ilic, Dragana
Lagos, Claudia D. P.
Liu, Xin
O'Dea, Christopher
Popović, Luka
Sheinis, Andy
Wang, Yiping
Xue, Yongquan
Publication Year :
2019
Publisher :
arXiv, 2019.

Abstract

Most bulge-dominated galaxies host black holes with masses that tightly correlate with the masses of their bulges. This may indicate that the black holes may regulate galaxy growth or vice versa, or that they may grow in lock-step. The quest to understand how, when, and where those black-holes formed motivates much of extragalactic astronomy. Here we focus on a population of galaxies with active black holes in their nuclei (active galactic nuclei or AGN), that are fully or partially hidden by dust and gas: the emission from the broad line region is either completely or partially obscured with a visual extinction of 1 or above. This limit, though not yet precise, appears to be the point at which the populations of AGN may evolve differently. We highlight the importance of finding and studying those dusty AGN at redshifts between 1 and 3, the epoch when the universe may have gone through its most dramatic changes. We emphasize the need for future large multiplexed spectroscopic instruments that can perform dedicated surveys in the optical and NIR to pin down the demographics of such objects and study their reddening properties, star-formation histories, and excitation conditions. These key studies will shed light on the role of black holes in galaxy evolution during the epoch of peak growth activity.<br />Comment: Science White Paper for the US Astro 2020 Decadal Survey, 5 pages, 2 figures

Details

Database :
OpenAIRE
Accession number :
edsair.doi.dedup.....9359951c72afe663f5ff145876e96e0b
Full Text :
https://doi.org/10.48550/arxiv.1905.10489