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A small and vigorous black hole in the early Universe

Author:
Roberto Maiolino, Jan Scholtz, Joris Witstok, Stefano Carniani, Francesco D'Eugenio, Anna de Graaff, Hannah Uebler, Sandro Tacchella, Emma Curtis-Lake, Santiago Arribas, Andrew Bunker, Stéphane Charlot, Jacopo Chevallard, Mirko Curti, Tobias J. Looser, Michael V. Maseda, Tim Rawle, Bruno Rodriguez Del Pino, Chris J. Willott, Eiichi Egami, Daniel Eisenstein, Kevin Hainline, Brant Robertson, Christina C. Williams, Christopher N. A. Willmer, William M. Baker, Kristan Boyett, Christa DeCoursey, Andrew C. Fabian, Jakob M. Helton, Zhiyuan Ji, Gareth C. Jones, Nimisha Kumari, Nicolas Laporte, Erica Nelson, Michele Perna, Lester Sandles, Irene Shivaei, Fengwu Sun
Keyword:
Astrophysics, Astrophysics of Galaxies, Astrophysics of Galaxies (astro-ph.GA), Cosmology and Nongalactic Astrophysics (astro-ph.CO), High Energy Astrophysical Phenomena (astro-ph.HE)
journal:
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date:
2023-05-20 16:00:00
Abstract
Black holes with masses in excess of several billion solar masses have been found at redshifts 6-7.5, when the universe was less than 1 Gyr old. The existence of such supermassive black holes already in place at such early epochs has been challenging for theoretical models and distinguishing between different scenarios has prompted the search for their progenitors at earlier epochs. Here we present an extensive analysis of the JWST-NIRSpec spectrum (from the JADES survey) of GN-z11, an exceptionally luminous galaxy at z=10.6, revealing the detection of the high ionization [NeIV]$\lambda$2423 transition and semi-forbidden nebular lines tracing gas densities higher than $\rm 10^{10}~cm^{-3}$, typical of the Broad Line Region of Active Galactic Nuclei (AGN). These spectral features indicate that, in addition to star formation, GN-z11 also hosts an accreting black hole. We do not exclude a contribution from extreme stellar populations, however Wolf Rayet stars alone cannot account for many of the spectral properties. The spectrum also reveals a deep and blueshifted CIV$\lambda$1549 absorption trough, tracing an outflow with a velocity of $\sim 800-1000$ km/s, higher than typically observed in starburst galaxies, hence likely driven by the AGN. Assuming local virial scaling relations, we derive a black hole mass of $\rm \log{(M_{BH}/M_{\odot})}=6.2\pm 0.3$, accreting at about 5 times the Eddington rate. While super-Eddington accretion is probably episodic, if it has been occurring for the previous $\sim 100$ Myr, then the black hole could have potentially originated even from a stellar mass seed at z$\sim$12-15. We finally discuss that our finding naturally explains the high luminosity of GN-z11 and can also provide an explanation for its exceptionally high nitrogen abundance.
PDF: A small and vigorous black hole in the early Universe.pdf
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