GAMA: towards a physical understanding of galaxy formation

Simon P. Driver; Peder Norberg; Ivan K. Baldry; Steven P. Bamford,; Andrew M. Hopkins; Jochen Liske; Jon Loveday; John A. Peacock; David T. Hill,; Lee S. Kelvin; Aaron S.G. Robotham; Nick J. Cross; Hannah R. Parkinson; Matt; Prescott; Chris J. Conselice; Loretta Dunne; Sarah Brough; Heath Jones; Rob; G. Sharp; Eelco van Kampen; Seb Oliver; Isaac G. Roseboom; Joss; Bland-Hawthorn; Scott M. Croom; Simon Ellis; Ewan Cameron; Shaun Cole; Carlos; S. Frenk; Warrick J. Couch; Alister W. Graham; Rob Proctor; Roberto De; Propris; Issi F. Doyle; Ed M. Edmondson; Robert C. Nichol. Daniel Thomas,; Steve A. Eales; Matt J. Jarvis; Konrad Kuijken; Ofer Lahav; Barry F. Madore,; Mark Seibert; Martin J. Meyer; Lister Staveley-Smith; Steven Phillipps,; Cristina C. Popescu; Ann E. Sansom; Will J. Sutherland; Richard J. Tuffs,; Steven J. Warren

arXiv:0910.5123·astro-ph.CO·August 24, 2010

GAMA: towards a physical understanding of galaxy formation

Simon P. Driver, Peder Norberg, Ivan K. Baldry, Steven P. Bamford,, Andrew M. Hopkins, Jochen Liske, Jon Loveday, John A. Peacock, David T. Hill,, Lee S. Kelvin, Aaron S.G. Robotham, Nick J. Cross, Hannah R. Parkinson, Matt, Prescott, Chris J. Conselice, Loretta Dunne

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TL;DR

GAMA is a comprehensive galaxy survey aiming to understand galaxy formation and evolution by mapping structures, measuring dark matter and baryonic processes, and creating an extensive multi-wavelength galaxy database.

Contribution

It introduces a large, detailed galaxy survey with multi-wavelength data to test hierarchical galaxy formation models and analyze galaxy properties across environments.

Findings

01

Mapping galaxy structures on scales of 1kpc to 1Mpc.

02

Measuring the Dark Matter Halo Mass Function.

03

Analyzing galaxy formation efficiency and merger rates.

Abstract

The Galaxy And Mass Assembly (GAMA) project is the latest in a tradition of large galaxy redshift surveys, and is now underway on the 3.9m Anglo-Australian Telescope at Siding Spring Observatory. GAMA is designed to map extragalactic structures on scales of 1kpc - 1Mpc in complete detail to a redshift of z~0.2, and to trace the distribution of luminous galaxies out to z~0.5. The principal science aim is to test the standard hierarchical structure formation paradigm of Cold Dark Matter (CDM) on scales of galaxy groups, pairs, discs, bulges and bars. We will measure (1) the Dark Matter Halo Mass Function (as inferred from galaxy group velocity dispersions); (2) baryonic processes, such as star formation and galaxy formation efficiency (as derived from Galaxy Stellar Mass Functions); and (3) the evolution of galaxy merger rates (via galaxy close pairs and galaxy asymmetries). Additionally,…

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