http://arxiv.org/abs/1507.00731
The abundance of compact and massive early-type galaxies (ETGs) can provide significant constraints on the galaxy merging history. The optical Kilo Degree Survey (KiDS), carried out with the VST, gives a unique opportunity to perform a complete census of the most compact galaxies in the Universe. This paper presents a first census of compact galaxy candidates from the first 156 square degrees of KIDS. Effective radii (Re) in the g-, r-, and i- bands are derived fitting galaxy images with PSF-convolved S\’ersic models, high-quality photo-z, are derived from machine learning techniques, and stellar masses, are calculated by fitting aperture photometry with predictions from stellar population models. After the morphological star/galaxy separation, massiveness ($M_{\star} > 8 \times 10^{10}\, \rm M_{\odot}$) and compactness ($R_{e} < 1.5 \, \rm kpc$) criteria are applied, and a visual inspection of the candidates plus near-IR photometry from VIKING-DR1 are used to refine our sample. The final catalog contains 92 compact systems in the redshift range $z \sim 0.2-0.7$. This sample, to be spectroscopically confirmed, represents the first attempt to select massive super-compact ETGs (MSCGs) in KiDS, a sample that we expect to increase, by a factor of ten, over the total survey area ($\sim 1500$ sq. deg.). We investigate the impact of redshift systematics in the selection, finding that, indeed, this seems a major source of contamination in our sample. Finally, we show that the number density of MSCGs , as a function of redshift, is mildly consistent with predictions from the Millennium Simulation for z>0.2, while, remarkably, no such system is found at z<0.2. (abridged)
C. Tortora, F. Barbera, N. Napolitano, et. al.
Mon, 6 Jul 15
39/47
Comments: 9 pages, 5 figures, submitted to MNRAS
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