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arxiv: 1106.6088 · v1 · submitted 2011-06-30 · 🌌 astro-ph.CO

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A luminous quasar at a redshift of z = 7.085

Daniel J. Mortlock (1) , Stephen J. Warren (1) , Bram P. Venemans (2) , Mitesh Patel (1) , Paul C. Hewett (3) , Richard G. McMahon (3) , Chris Simpson (4) , Tom Theuns (5
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6) Eduardo A. Gonzales-Solares (3) Andy Adamson (7) Simon Dye (8) Nigel C. Hambly (9) Paul Hirst (10) Mike J. Irwin (3) Ernst Kuiper (11) Andy Lawrence (9) Huub J. A. Rottgering (11) ((1) Imperial College London (2) European Southern Observatory (3) University of Cambridge (4) Liverpool John Moores University (5) University of Durham (6) Universiteit Antwerpen (7) Joint Astronomy Centre (8) University of Nottingham (9) University of Edinburgh (10) Gemini Observatory (11) Leiden University)
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classification 🌌 astro-ph.CO
keywords redshiftsulasj1120quasarsbangbeenbillionintergalactic
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The intergalactic medium was not completely reionized until approximately a billion years after the Big Bang, as revealed by observations of quasars with redshifts of less than 6.5. It has been difficult to probe to higher redshifts, however, because quasars have historically been identified in optical surveys, which are insensitive to sources at redshifts exceeding 6.5. Here we report observations of a quasar (ULAS J112001.48+064124.3) at a redshift of 7.085, which is 0.77 billion years after the Big Bang. ULAS J1120+0461 had a luminosity of 6.3x10^13 L_Sun and hosted a black hole with a mass of 2x10^9 M_Sun (where L_Sun and M_Sun are the luminosity and mass of the Sun). The measured radius of the ionized near zone around ULAS J1120+0641 is 1.9 megaparsecs, a factor of three smaller than typical for quasars at redshifts between 6.0 and 6.4. The near zone transmission profile is consistent with a Ly alpha damping wing, suggesting that the neutral fraction of the intergalactic medium in front of ULAS J1120+0641 exceeded 0.1.

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