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29 March 2024
 
  » arxiv » astro-ph/0508091

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Exploring Halo Substructure with Giant Stars VIII: The Extended Structure of the Sculptor Dwarf Spheroidal Galaxy
Kyle B. Westfall ; Steven R. Majewski ; James C. Ostheimer ; Peter M. Frinchaboy ; William E. Kunkel ; Richard J. Patterson ; Robert Link ;
Date 3 Aug 2005
Subject astro-ph
AffiliationUVa, UW-Madison), Steven R. Majewski (UVa), James C. Ostheimer (UVa), Peter M. Frinchaboy (UVa), William E. Kunkel (Las Campanas), Richard J. Patterson (UVa), and Robert Link (UVa
Abstract(Abridged) We explore the spatial distribution of stars in the Sculptor dwarf spheroidal (dSph) galaxy over an area of 7.82 deg^2. We identify red giant branch (RGB) starts via Washington M, T_2+DDO51 photometry and a blue horizontal branch (BHB) population to map the spatial structure of the dSph. A spectroscopically observed subset of Sculptor candidate stars yield a systemic heliocentric velocity for the system of v_{hel}=110.43 km/s, in good agreement with previous studies, and a global velocity dispersion of sigma_v=8.8 km/s, which may rise slightly past 0.4r_{lim}. To a limit of M~19, we find 94% of the photometrically-selected Sculptor giant star candidates with spectrocopic measurements are kinematically associated with Sculptor, and four of ten stars not selected photometrically are selected kinematically; our candidate samples are likely to be very pure. We take considerable care in assessing the contaminating background level in our photometric sample to ensure accurate density profiles. These assessments verify that we detect a considerable stellar density of Sculptor stars to the limits of our survey area in both the RGB and BHB samples. We find the Sculptor density profile is well-fit by a King profile of limiting radius r_{lim} = 79.6 within ~60 arcmin, beyond which a "break" to a power law profile occurs. This break population must be either a bound group of "halo stars" around the Sculptor dSph or unbound tidal debris. The latter is supported by 2D distribution analyses and, if true, implies a fractional mass-loss rate of ~0.042 Gyr^{-1} for Sculptor. Finally, likely more metal-poor RGB stars (as selected by color and magnitude) are significantly less centrally concentrated and, therefore, constitute the primary contributor to the likely tidally-stripped parts of the dSph.
Source arXiv, astro-ph/0508091
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