Literature DB >> 23485967

Dusty starburst galaxies in the early Universe as revealed by gravitational lensing.

J D Vieira1, D P Marrone, S C Chapman, C De Breuck, Y D Hezaveh, A Weiβ, J E Aguirre, K A Aird, M Aravena, M L N Ashby, M Bayliss, B A Benson, A D Biggs, L E Bleem, J J Bock, M Bothwell, C M Bradford, M Brodwin, J E Carlstrom, C L Chang, T M Crawford, A T Crites, T de Haan, M A Dobbs, E B Fomalont, C D Fassnacht, E M George, M D Gladders, A H Gonzalez, T R Greve, B Gullberg, N W Halverson, F W High, G P Holder, W L Holzapfel, S Hoover, J D Hrubes, T R Hunter, R Keisler, A T Lee, E M Leitch, M Lueker, D Luong-Van, M Malkan, V McIntyre, J J McMahon, J Mehl, K M Menten, S S Meyer, L M Mocanu, E J Murphy, T Natoli, S Padin, T Plagge, C L Reichardt, A Rest, J Ruel, J E Ruhl, K Sharon, K K Schaffer, L Shaw, E Shirokoff, J S Spilker, B Stalder, Z Staniszewski, A A Stark, K Story, K Vanderlinde, N Welikala, R Williamson.   

Abstract

In the past decade, our understanding of galaxy evolution has been revolutionized by the discovery that luminous, dusty starburst galaxies were 1,000 times more abundant in the early Universe than at present. It has, however, been difficult to measure the complete redshift distribution of these objects, especially at the highest redshifts (z > 4). Here we report a redshift survey at a wavelength of three millimetres, targeting carbon monoxide line emission from the star-forming molecular gas in the direction of extraordinarily bright millimetre-wave-selected sources. High-resolution imaging demonstrates that these sources are strongly gravitationally lensed by foreground galaxies. We detect spectral lines in 23 out of 26 sources and multiple lines in 12 of those 23 sources, from which we obtain robust, unambiguous redshifts. At least 10 of the sources are found to lie at z > 4, indicating that the fraction of dusty starburst galaxies at high redshifts is greater than previously thought. Models of lens geometries in the sample indicate that the background objects are ultra-luminous infrared galaxies, powered by extreme bursts of star formation.

Entities:  

Year:  2013        PMID: 23485967     DOI: 10.1038/nature12001

Source DB:  PubMed          Journal:  Nature        ISSN: 0028-0836            Impact factor:   49.962


  1 in total

1.  The intense starburst HDF 850.1 in a galaxy overdensity at z ≈ 5.2 in the Hubble Deep Field.

Authors:  Fabian Walter; Roberto Decarli; Chris Carilli; Frank Bertoldi; Pierre Cox; Elisabete Da Cunha; Emanuele Daddi; Mark Dickinson; Dennis Downes; David Elbaz; Richard Ellis; Jacqueline Hodge; Roberto Neri; Dominik A Riechers; Axel Weiss; Eric Bell; Helmut Dannerbauer; Melanie Krips; Mark Krumholz; Lindley Lentati; Roberto Maiolino; Karl Menten; Hans-Walter Rix; Brant Robertson; Hyron Spinrad; Dan P Stark; Daniel Stern
Journal:  Nature       Date:  2012-06-13       Impact factor: 49.962
  1 in total
  10 in total

1.  The formation of submillimetre-bright galaxies from gas infall over a billion years.

Authors:  Desika Narayanan; Matthew Turk; Robert Feldmann; Thomas Robitaille; Philip Hopkins; Robert Thompson; Christopher Hayward; David Ball; Claude-André Faucher-Giguère; Dušan Kereš
Journal:  Nature       Date:  2015-09-24       Impact factor: 49.962

2.  The rarity of dust in metal-poor galaxies.

Authors:  David B Fisher; Alberto D Bolatto; Rodrigo Herrera-Camus; Bruce T Draine; Jessica Donaldson; Fabian Walter; Karin M Sandstrom; Adam K Leroy; John Cannon; Karl Gordon
Journal:  Nature       Date:  2013-12-08       Impact factor: 49.962

3.  Galaxy formation: Cosmic dawn.

Authors:  Ron Cowen
Journal:  Nature       Date:  2013-05-30       Impact factor: 49.962

Review 4.  High-redshift star formation in the Atacama large millimetre/submillimetre array era.

Authors:  J A Hodge; E da Cunha
Journal:  R Soc Open Sci       Date:  2020-12-09       Impact factor: 2.963

5.  Astronomy: The ALMA telescope shows its true colours.

Authors:  Andrew W Blain
Journal:  Nature       Date:  2013-03-13       Impact factor: 49.962

6.  A dust-obscured massive maximum-starburst galaxy at a redshift of 6.34.

Authors:  Dominik A Riechers; C M Bradford; D L Clements; C D Dowell; I Pérez-Fournon; R J Ivison; C Bridge; A Conley; Hai Fu; J D Vieira; J Wardlow; J Calanog; A Cooray; P Hurley; R Neri; J Kamenetzky; J E Aguirre; B Altieri; V Arumugam; D J Benford; M Béthermin; J Bock; D Burgarella; A Cabrera-Lavers; S C Chapman; P Cox; J S Dunlop; L Earle; D Farrah; P Ferrero; A Franceschini; R Gavazzi; J Glenn; E A Gonzalez Solares; M A Gurwell; M Halpern; E Hatziminaoglou; A Hyde; E Ibar; A Kovács; M Krips; R E Lupu; P R Maloney; P Martinez-Navajas; H Matsuhara; E J Murphy; B J Naylor; H T Nguyen; S J Oliver; A Omont; M J Page; G Petitpas; N Rangwala; I G Roseboom; D Scott; A J Smith; J G Staguhn; A Streblyanska; A P Thomson; I Valtchanov; M Viero; L Wang; M Zemcov; J Zmuidzinas
Journal:  Nature       Date:  2013-04-18       Impact factor: 49.962

7.  Astronomy: A cosmic growth spurt in an infant galaxy.

Authors:  Desika Narayanan; Chris Carilli
Journal:  Nature       Date:  2013-04-18       Impact factor: 49.962

8.  A dynamically cold disk galaxy in the early Universe.

Authors:  F Rizzo; S Vegetti; D Powell; F Fraternali; J P McKean; H R Stacey; S D M White
Journal:  Nature       Date:  2020-08-12       Impact factor: 49.962

9.  On the redshift distribution and physical properties of ACT-selected DSFGs.

Authors:  T Su; T A Marriage; V Asboth; A J Baker; J R Bond; D Crichton; M J Devlin; R Dünner; D Farrah; D T Frayer; M B Gralla; K Hall; M Halpern; A I Harris; M Hilton; A D Hincks; J P Hughes; M D Niemack; L A Page; B Partridge; J Rivera; D Scott; J L Sievers; R J Thornton; M P Viero; L Wang; E J Wollack; M Zemcov
Journal:  Mon Not R Astron Soc       Date:  2016-09-15       Impact factor: 5.287

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

Authors:  D P Marrone; J S Spilker; C C Hayward; J D Vieira; M Aravena; M L N Ashby; M B Bayliss; M Béthermin; M Brodwin; M S Bothwell; J E Carlstrom; S C Chapman; Chian-Chou Chen; T M Crawford; D J M Cunningham; C De Breuck; C D Fassnacht; A H Gonzalez; T R Greve; Y D Hezaveh; K Lacaille; K C Litke; S Lower; J Ma; M Malkan; T B Miller; W R Morningstar; E J Murphy; D Narayanan; K A Phadke; K M Rotermund; J Sreevani; B Stalder; A A Stark; M L Strandet; M Tang; A Weiß
Journal:  Nature       Date:  2017-12-06       Impact factor: 49.962
  10 in total

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