A LINK BETWEEN STAR FORMATION QUENCHING AND INNER STELLAR MASS DENSITY IN SLOAN DIGITAL SKY SURVEY CENTRAL GALAXIES

A LINK BETWEEN STAR FORMATION QUENCHING AND INNER STELLAR MASS DENSITY IN SLOAN DIGITAL SKY SURVEY CENTRAL GALAXIES

We study the correlation between galaxy structure and the quenching of star formation using a sample of Sloan Digital Sky Survey central galaxies with stellar masses 9.75 < log M[low *]/M sub([middot in circle]) < 11.25 and redshifts z < 0.075. Galaxy Evolution Explorer UV data are used to...

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Bibliographic Details
Published in:The Astrophysical journal Vol. 776; no. 1; pp. 1 - 18
Main Authors: Fang, Jerome J, Faber, S M, Koo, David C, Dekel, Avishai
Format: Journal Article
Language:English
Published: United States 10-10-2013
Subjects:
ASTRONOMY
ASTROPHYSICS
ASTROPHYSICS, COSMOLOGY AND ASTRONOMY
COLOR
CORRELATIONS
Density
Galactic evolution
Galactic halos
GALAXIES
GALAXY NUCLEI
MASS
NONLUMINOUS MATTER
Quenching
RED SHIFT
STAR EVOLUTION
Star formation
STARS
Stellar mass
Thresholds
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Summary:We study the correlation between galaxy structure and the quenching of star formation using a sample of Sloan Digital Sky Survey central galaxies with stellar masses 9.75 < log M[low *]/M sub([middot in circle]) < 11.25 and redshifts z < 0.075. Galaxy Evolution Explorer UV data are used to cleanly divide the sample into star-forming and quenched galaxies and to identify galaxies in transition (the green valley). Despite a stark difference in visual appearance between blue and red galaxies, their average radial stellar mass density profiles are remarkably similar (especially in the outer regions) at fixed mass. The inner stellar mass surface density within a radius of 1 kpc, [summationoperator] sub(1), is used to quantify the growth of the bulge as galaxies evolve. When galaxies are divided into narrow mass bins, their distribution in the color-[summationoperator] sub(1) plane at fixed mass forms plausible evolutionary tracks. [summationoperator] sub(1) seems to grow as galaxies evolve through the blue cloud, and once it crosses a threshold value, galaxies are seen to quench at fixed [summationoperator] sub(1). The [summationoperator] sub(1) threshold for quenching grows with stellar mass, [summationoperator] sub(1) [alpha] M super(0.64)[low *]. However, the existence of some star-forming galaxies above the threshold [summationoperator] sub(1) implies that a dense bulge is necessary but not sufficient to quench a galaxy fully. This would be consistent with a two-step quenching process in which gas within a galaxy is removed or stabilized against star formation by bulge-driven processes (such as a starburst, active galactic nucleus feedback, or morphological quenching), whereas external gas accretion is suppressed by separate halo-driven processes (such as halo gas shock heating). Quenching thus depends on an interplay between the inner structure of a galaxy and its surrounding dark matter halo, and lack of perfect synchrony between the two could produce the observed scatter in color versus [summationoperator] sub(1).
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ISSN:0004-637X
1538-4357
DOI:10.1088/0004-637X/776/1/63