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Date and Time of the Query: 2019-08-18 T02:27:57 PDT
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For refcode 2000ApJ...529..886C:
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2000ApJ...529..886C The Asymmetry of Galaxies: Physical Morphology for Nearby and High-Redshift Galaxies Christopher J. Conselice and Matthew A. Bershady Department of Astronomy, University of Wisconsin, Madison, 475 North Charter Street, Madison, WI 53706-1582; chris@astro.wisc.edu; mab@astro.wisc.edu and Anna Jangren Department of Astronomy and Astrophysics, Pennsylvania State University, 525 Davey Lab, University Park, PA 16802; jangren@astro.psu.edu Received 1999 May 7; accepted 1999 August 23 ABSTRACT We present a detailed study of rotational asymmetry in galaxies for both morphological and physical diagnostic purposes. An unambiguous method for computing asymmetry is developed, which is robust for both distant and nearby galaxies. By degrading real galaxy images, we test the reliability of this asymmetry measure over a range of observational conditions, e.g., spatial resolution and signal-to-noise ratio (S/N). Compared to previous methods, this new algorithm avoids the ambiguity associated with choosing a center by using a minimization method and successfully corrects for variations in S/N. There is, however, a strong relationship between the rotational asymmetry and physical resolution (distance at fixed spatial resolution): objects become more symmetric when less well-resolved. We further investigate asymmetry as a function of galactic radius and rotation. We find the asymmetry index has a strong radial dependence that differs vastly between Hubble types. As a result, a meaningful asymmetry index must be specified within a well-defined radius representative of the physical galaxy scale. We enumerate several viable alternatives, which exclude the use of isophotes. Asymmetry as a function of angle (A_{phi}_) is also a useful indicator of ellipticity and higher order azimuthal structure. In general, we show that the power of asymmetry as a morphological parameter lies in the strong correlation with B-V color for galaxies undergoing normal star formation spanning all Hubble types from ellipticals to irregular galaxies. The few interacting galaxies in our study do not fall on this asymmetry-color "fiducial sequence," as these galaxies are too asymmetric for their color. We suggest this fact can be used to distinguish between "normal" galaxies and galaxies undergoing an interaction or merger. Subject headings: galaxies: photometry-galaxies: structure
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