The rapid assembly of an elliptical galaxy of 400 billion solar masses at a redshift of 2.3

Fu, Hai and Cooray, Asantha and Feruglio, C. and Ivison, R. J. and Riechers, D. A. and Gurwell, M. and Bussmann, R. S. and Harris, A. I. and Altieri, B. and Aussel, H. and Baker, A. J. and Bock, J. and Boylan-Kolchin, M. and Bridge, C. and Calanog, J. A. and Casey, C. M. and Cava, A. and Chapman, S. C. and Clements, D. L. and Conley, A. and Cox, P. and Farrah, D. and Frayer, D. and Hopwood, R. and Jia, J. and Magdis, G. and Marsden, G. and Martínez-Navajas, P. and Negrello, M. and Neri, R. and Oliver, S. J. and Omont, A. and Page, M. J. and Pérez-Fournon, I. and Schulz, B. and Scott, D. and Smith, A. and Vaccari, M. and Valtchanov, I. and Vieira, J. D. and Viero, M. and Wang, L. and Wardlow, J. L. and Zemcov, M. (2013) The rapid assembly of an elliptical galaxy of 400 billion solar masses at a redshift of 2.3. Nature, 498 (7454). pp. 338-341. ISSN 0028-0836

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Abstract

Stellar archaeology shows that massive elliptical galaxies formed rapidly about ten billion years ago with star-formation rates of above several hundred solar masses per year. Their progenitors are probably the submillimetre bright galaxies at redshifts z greater than 2. Although the mean molecular gas mass (5 × 1010 solar masses) of the submillimetre bright galaxies can explain the formation of typical elliptical galaxies, it is inadequate to form elliptical galaxies that already have stellar masses above 2 × 1011 solar masses at z ~ 2. Here we report multi-wavelength high-resolution observations of a rare merger of two massive submillimetre bright galaxies at z = 2.3. The system is seen to be forming stars at a rate of 2,000 solar masses per year. The star-formation efficiency is an order of magnitude greater than that of normal galaxies, so the gas reservoir will be exhausted and star formation will be quenched in only around 200 million years. At a projected separation of 19 kiloparsecs, the two massive starbursts are about to merge and form a passive elliptical galaxy with a stellar mass of about 4 × 1011 solar masses. We conclude that gas-rich major galaxy mergers with intense star formation can form the most massive elliptical galaxies by z ~ 1.5.

Item Type:
Journal Article
Journal or Publication Title:
Nature
Uncontrolled Keywords:
/dk/atira/pure/subjectarea/asjc/1000
Subjects:
ID Code:
128259
Deposited By:
Deposited On:
07 Nov 2018 10:28
Refereed?:
Yes
Published?:
Published
Last Modified:
29 Oct 2020 08:25