Gargantua in the Mist: A Black Hole Behemoth at the Edge of Cosmic Dawn
A Record-Breaking Quasar
To understand when supermassive black holes first appeared, astronomers scan the skies for actively-feeding black holes (known as “quasars”) from the Universe’s distant past. The latest discovery, by a team led by Eduardo Bañados (Carnegie Observatories) and published today in the journal Nature, is a record-breaker: J1342+0928, the most distant quasar known.
The black hole resides in a mostly neutral universe, 690 million years after the Big Bang, at a time when the first galaxies were appearing.
Image by Robin Dienel, courtesy of the Carnegie Institution for Science
A Behemoth Black Hole
Despite its young age, the quasar harbors a whopper of a black hole, 800 million times the mass of the Sun.
Artist’s concept of the most distant supermassive black hole known, rapidly growing in mass as it is fed by a swirling disk of hot gas and dust.
Credit: Robin Dienel, courtesy of the Carnegie Institution for Science
NOAO and Gemini Data Critical to the Discovery
Quasars like J1342+0928 are rare. The study that revealed the existence of J1342+0928 searched one-tenth of the entire sky, yielding only one quasar at this epoch. To pick out these rare sources from the millions of sources in the sky, the research team employed a clever selection technique. They used archival data to search for sources that are bright in the infrared (beyond 1 micron) but undetected in the z-band (just shortward of 1 micron).
Deep z-band data covering a large swath of sky was therefore critical to the study. Luckily just such a data set is now available from the DECam Legacy Survey (DECaLS) that is being carried out with the Dark Energy Camera on the Blanco 4-m telescope at the Cerro Tololo Inter-American Observatory. The research team also used infrared data sets from the Wide-field Infrared Survey Explorer (WISE), and the United Kingdom Infrared Telescope Infrared Deep Sky Survey (UKIDSS) Large Area Survey. Spectra taken with the near-infrared spectrograph on the Gemini North Telescope were used to measure the mass of the black hole.
The new super-massive black hole J1342+0928 (yellow star), which resides in a mostly neutral universe at the edge of cosmic dawn, is more distant than any other found to date (yellow dots).
Credit: Jinyi Yang, University of Arizona; Reidar Hahn, Fermilab; M. Newhouse NOAO/AURA/NSF
Commenting on the research team’s use of the archival DECaLS data, Arjun Dey (National Optical Astronomy Observatory), the other co-lead of the DECaLS survey, remarked, “DECaLS was designed from the ground up as a public project, so it is wonderful to see the data enabling exciting discoveries that are pushing the boundaries of the known Universe.”
“A significant discovery like this is the hoped-for result of NSF Astronomy’s investment in facilities, major surveys, and extraordinary investigator teams with targeted follow-up,” said Richard Green, Director of the NSF’s Division of Astronomical Sciences. Cerro Tololo Inter-American Observatory is part of the National Optical Astronomy Observatory (NOAO). Both NOAO and Gemini are funded by the National Science Foundation (NSF).
The non-detection of J1342+0928 in the DECaLS z-band image (top left), despite its brightness beyond 1 micron in the Magellan image (top right), identifies it as an interesting distant object. From the spectrum of the object(taken with Gemini, Magellan, and LBT), which identified it as the most distant quasar known, the research team also measured the mass of its supermassive black hole.
From a Precocious Youth to Staid Middle Age?
Coauthor Fan speculates that the new quasar, as remarkable as it is, is “probably just an early bloomer. If it is located in a denser than average part of the Universe, it could get an earlier start in life and grow more quickly.” Fan suspects that despite its precocious youth, J1342+0928 eventually settled down to life at a more measured pace, becoming a more typical supermassive black hole at the center of a large elliptical galaxy.
What’s Next?
The reported result is part of a longer term search for the earliest quasars. The research team is adopting a similar strategy in its exploration of a larger area of sky to track down and study the earliest quasars. How long will J1342+0928 remain the record holder? Only time will tell!
The Cerro Tololo Inter-American Observatory (CTIO) is part of the National Optical Astronomy Observatory (NOAO), which is operated by the Association of Universities for Research in Astronomy (AURA) under a cooperative agreement with the National Science Foundation
Contacts and sources:
Joan Najita
Citation: “An 800 million solar mass black hole in a significantly neutral Universe at a redshift of 7.5,” Bañados et al. 2017, Nature. http://dx.doi.org/10.1038/nature25180].
Preprint [https://users.obs.carnegiescience.edu/~ebanados/banados2017-arxiv.pdf]
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