THE CARNEGIE-IRVINE GALAXY SURVEY. III. THE THREE-COMPONENT STRUCTURE OF NEARBY ELLIPTICAL GALAXIES

Motivated by recent developments in our understanding of the formation and evolution of massive galaxies, we explore the detailed photometric structure of a representative sample of 94 bright, nearby elliptical galaxies, using high-quality optical images from the Carnegie-Irvine Galaxy Survey. The s...

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Published inThe Astrophysical journal Vol. 766; no. 1; pp. 1 - 33
Main Authors Huang, Song, Ho, Luis C, Peng, Chien Y, Li, Zhao-Yu, Barth, Aaron J
Format Journal Article
LanguageEnglish
Published United States 20.03.2013
Subjects
ASTROPHYSICS, COSMOLOGY AND ASTRONOMY
Asymptotic properties
BRIGHTNESS
COMPARATIVE EVALUATIONS
Elliptical galaxies
Formations
GALACTIC EVOLUTION
GALAXIES
GEOMETRY
LUMINOSITY
MASS
Mathematical models
ONE-DIMENSIONAL CALCULATIONS
PHOTOMETRY
SCALING
STARS
Substructures
Two dimensional
TWO-DIMENSIONAL CALCULATIONS
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Summary:Motivated by recent developments in our understanding of the formation and evolution of massive galaxies, we explore the detailed photometric structure of a representative sample of 94 bright, nearby elliptical galaxies, using high-quality optical images from the Carnegie-Irvine Galaxy Survey. The sample spans a range of environments and stellar masses, from M[low *] = 10 super(10.2) to 10 super(12.0) M sub([middot in circle]). We exploit the unique capabilities of two-dimensional image decomposition to explore the possibility that local elliptical galaxies may contain photometrically distinct substructure that can shed light on their evolutionary history. Compared with the traditional one-dimensional approach, these two-dimensional models are capable of consistently recovering the surface brightness distribution and the systematic radial variation of geometric information at the same time. Contrary to conventional perception, we find that the global light distribution of the majority ([> ~]75%) of elliptical galaxies is not well described by a single Sersic function. Instead, we propose that local elliptical galaxies genetically contain three subcomponents: a compact (R sub(e) [< ~] 1 kpc) inner component with luminosity fraction f [asymptotically =] 0.1-0.15; an intermediate-scale (R sub(e) [asymptotically =] 2.5 kpc) middle component with f [asymptotically =] 0.2-0.25; and a dominant (f = 0.6), extended (R sub(e) [asymptotically =] 10 kpc) outer envelope. All subcomponents have average Sersic indices n [asymptotically =] 1-2, significantly lower than the values typically obtained from single-component fits. The individual subcomponents follow well-defined photometric scaling relations and the stellar mass-size relation. We discuss the physical nature of the substructures and their implications for the formation of massive elliptical galaxies.
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ISSN:0004-637X
1538-4357
DOI:10.1088/0004-637X/766/1/47