Galaxy growth in a massive halo in the first billion years of cosmic   history

D. P. Marrone (1); J. S. Spilker (1); C. C. Hayward (2,3); J. D.; Vieira (4); M. Aravena (5); M. L. N. Ashby (3); M. B. Bayliss (6); M.; Bethermin (7); M. Brodwin (8); M. S. Bothwell (9,10); J. E. Carlstrom; (11,12,13,14); S. C. Chapman (15); Chian-Chou Chen (16); T. M. Crawford; (11,14); D. J. M. Cunningham (15,17); C. De Breuck (16); C. D. Fassnacht; (18); A. H. Gonzalez (19); T. R. Greve (20); Y. D. Hezaveh (21,28); K.; Lacaille (22); K. C. Litke (1); S. Lower (4); J. Ma (19); M. Malkan (23); T.; B. Miller (15); W. R. Morningstar (21); E. J. Murphy (24); D. Narayanan (19),; K. A. Phadke (4); K. M. Rotermund (15); J. Sreevani (4); B. Stalder (25); A.; A. Stark (3); M. L. Strandet (26,27); M. Tang (1); A. Weiss (26) ((1); Arizona; (2) Flatiron; (3) CfA; (4) Illinois; (5) UDP; (6) MIT; (7); Marseille; (8) UMKC; (9) Cavendish; (10) KICC; (11) KICP; (12) UChicago Phys,; (13) UChicago EFI; (14) UChicago Astro; (15) Dalhousie; (16) ESO; (17) Saint; Mary's; (18) UCDavis; (19) Florida; (20) UCL; (21) KIPAC; (22) McMaster; (23); UCLA; (24) NRAO; (25) LSST; (26) MPIfR; (27) IMPRS-Bonn; (28) Hubble Fellow)

arXiv:1712.03020·astro-ph.GA·December 11, 2017

Galaxy growth in a massive halo in the first billion years of cosmic history

D. P. Marrone (1), J. S. Spilker (1), C. C. Hayward (2,3), J. D., Vieira (4), M. Aravena (5), M. L. N. Ashby (3), M. B. Bayliss (6), M., Bethermin (7), M. Brodwin (8), M. S. Bothwell (9,10), J. E. Carlstrom, (11,12,13,14), S. C. Chapman (15), Chian-Chou Chen (16), T. M. Crawford

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TL;DR

This paper reports the discovery of a massive, rapidly star-forming galaxy pair at redshift 6.9, providing insights into galaxy formation and dark matter halos in the early Universe.

Contribution

It presents the first detailed observation of a massive galaxy pair at such an early cosmic time, revealing extreme star formation and merging activity in the first billion years.

Findings

01

Discovery of a massive galaxy pair at z=6.9

02

One galaxy forming stars at 2900 solar masses per year

03

Dark matter halo mass estimated at over 400 billion solar masses

Abstract

According to the current understanding of cosmic structure formation, the precursors of the most massive structures in the Universe began to form shortly after the Big Bang, in regions corresponding to the largest fluctuations in the cosmic density field. Observing these structures during their period of active growth and assembly - the first few hundred million years of the Universe - is challenging because it requires surveys that are sensitive enough to detect the distant galaxies that act as signposts for these structures and wide enough to capture the rarest objects. As a result, very few such objects have been detected so far. Here we report observations of a far-infrared-luminous object at redshift 6.900 (less than 800 Myr after the Big Bang) that was discovered in a wide-field survey. High-resolution imaging reveals this source to be a pair of extremely massive star-forming…

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