Journal
NATURE
Volume 502, Issue 7472, Pages 524-527Publisher
NATURE PUBLISHING GROUP
DOI: 10.1038/nature12657
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Funding
- W. M. Keck Foundation
- NASA [NAS 5-26555]
- Spitzer Space Telescope
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Of several dozen galaxies observed spectroscopically that are candidates for having a redshift (z) in excess of seven, only five have had their redshifts confirmed via Lyman alpha emission, at z = 7.008, 7.045, 7.109, 7.213 and 7.215 (refs 1-4). The small fraction of confirmed galaxies may indicate that the neutral fraction in the intergalactic medium rises quickly at z > 6.5, given that Lyman alpha is resonantly scattered by neutral gas(3,5-8). The small samples and limited depth of previous observations, however, makes these conclusions tentative. Here we report a deep near-infrared spectroscopic survey of 43 photometrically-selected galaxies with z > 6.5. We detect a near-infrared emission line from only a single galaxy, confirming that some process is making Lyman alpha difficult to detect. The detected emission line at a wavelength of 1.0343 micrometres is likely to be Lyman alpha emission, placing this galaxy at a redshift z = 7.51, an epoch 700 million years after the Big Bang. This galaxy's colours are consistent with significant metal content, implying that galaxies become enriched rapidly. We calculate a surprisingly high star-formation rate of about 330 solar masses per year, which is more than a factor of 100 greater than that seen in the Milky Way. Such a galaxy is unexpected in a survey of our size(9), suggesting that the early Universe may harbour a larger number of intense sites of star formation than expected.
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