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What turns galaxies off? The different morphologies of star-forming and quiescent galaxies since z~2 from CANDELS

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arxiv 1110.3786 v2 pith:SUCICXIT submitted 2011-10-17 astro-ph.CO astro-ph.GA

What turns galaxies off? The different morphologies of star-forming and quiescent galaxies since z~2 from CANDELS

classification astro-ph.CO astro-ph.GA
keywords galaxiesstellarformationquiescencequiescentstarcorrelatesdensity
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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We use HST/WFC3 imaging from the CANDELS Multicycle Treasury Survey, in conjunction with the Sloan Digital Sky Survey, to explore the evolution of galactic structure for galaxies with stellar masses >3e10M_sun from z=2.2 to the present epoch, a time span of 10Gyr. We explore the relationship between rest-frame optical color, stellar mass, star formation activity and galaxy structure. We confirm the dramatic increase from z=2.2 to the present day in the number density of non-star-forming galaxies above 3e10M_sun reported by others. We further find that the vast majority of these quiescent systems have concentrated light profiles, as parametrized by the Sersic index, and the population of concentrated galaxies grows similarly rapidly. We examine the joint distribution of star formation activity, Sersic index, stellar mass, inferred velocity dispersion, and stellar surface density. Quiescence correlates poorly with stellar mass at all z<2.2. Quiescence correlates well with Sersic index at all redshifts. Quiescence correlates well with `velocity dispersion' and stellar surface density at z>1.3, and somewhat less well at lower redshifts. Yet, there is significant scatter between quiescence and galaxy structure: while the vast majority of quiescent galaxies have prominent bulges, many of them have significant disks, and a number of bulge-dominated galaxies have significant star formation. Noting the rarity of quiescent galaxies without prominent bulges, we argue that a prominent bulge (and perhaps, by association, a supermassive black hole) is an important condition for quenching star formation on galactic scales over the last 10Gyr, in qualitative agreement with the AGN feedback paradigm.

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  1. Quantifying the inside-out formation of disk galaxies at $1.5 \le z \le 3.0$

    astro-ph.GA 2026-06 unverdicted novelty 4.0

    JWST observations show larger average rest-UV than rest-optical sizes in z=1.5-3 galaxies, supporting inside-out disk formation after dust correction.