English

An isolated, compact early-type galaxy with a diffuse stellar component: merger origin?

Astrophysics of Galaxies 2015-06-19 v1

Abstract

The relation between the size and luminosity for both bright and faint early-type galaxies has been repeatedly discussed as a crucial proxy for understanding evolutionary scenarios, as galaxies grow and lose their stellar mass in different physical processes. The class of compact early-type galaxies (cEs) are, however, distinct outliers from this relation and mainly found around massive galaxies in the centres of groups and clusters. The recent discovery of a cE in isolation provided a new opportunity to understand their formation scenario in a different environment. Here, we report the discovery of an isolated cE, CGCG 036-042, using imagery from the Sloan Digital Sky Survey (SDSS). The CGCG 036-042 has an rr-band absolute magnitude (Mr_{r}) of -18.21 mag and a half-light radius (Re_{e}) of 559 pc. Interestingly, it possesses a faint outer stellar component, which extends up to 10 kpc from its centre and has a nearly constant rr-band surface brightness of \sim26 mag/arcsec2^{2}. ESO-VLT long-slit spectroscopic data reveal that the simple stellar population (SSP) properties are fairly similar to those of previously identified cEs, with an intermediate-age of 7.15±\pm1.17 Gyr, a metallicity of --0.18±\pm0.07 dex and a supersolar alpha-element abundance of 0.2±\pm0.05 dex. The SSP metallicity also shows a significant decline outward from the center, by 0.5 dex over one half light radius. We discuss the possible origin of this galaxy and suggest that it might have originated from a merger of even smaller objects -- a well established scenario for the formation of massive early-type galaxies.

Keywords

Cite

@article{arxiv.1406.2747,
  title  = {An isolated, compact early-type galaxy with a diffuse stellar component: merger origin?},
  author = {Sanjaya Paudel and Thorsten Lisker and K. S. A. Hansson and Avon P. Huxor},
  journal= {arXiv preprint arXiv:1406.2747},
  year   = {2015}
}

Comments

8 pages, Accepted for publication in MNRAS

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