2003ApJ...586..765Y -
Astrophys. J., 586, 765-779 (2003/April-1)
Hubble Space Telescope WFPC2 morphologies of K-selected extremely red galaxies.
YAN L. and THOMPSON D.
Abstract (from CDS):
We selected 115 extremely red objects (EROs) from deep Hubble Space Telescope (HST) WFPC2 archive data combined with ground-based K-band images, with (F814W-Ks) ≥ 4, K-band signal-to-noise ratio ≥5, and a median limiting Ksmagnitude of ∼18.7, over a corresponding area of 228 arcmin2, for a morphological study of the ERO galaxy population. The survey covered a total of ∼409 arcmin2 over 77 separate WFPC2 fields. This is the first complete sample of bright EROs with high-resolution HST morphologies. From a visual morphological classification, we find that 30%±5% of our (F814W-Ks) ≥ 4 selected sample have morphologies consistent with a pure bulge or bulge-dominated galaxy (equivalent to E/S0), while disks comprise 64%±7% of the sample. Only 6% of the EROs remained unclassifiable. Mergers or strongly interacting systems, which includes sources from both classes, make up 17%±4% of the full sample. The quantitative Medium Deep Survey profile fitting is consistent with these results. These results highlight the complex nature of optical/near-IR color selected EROs. The dominant component of our sample is composed of disks, not spheroids or strongly interacting systems like HR 10. Using Bruzual & Charlot spectral energy distribution models, we investigated population differences in EROs selected by their (I-K) versus (R-K) colors and found that I-band based surveys preferentially select systems with prolonged star formation. Real differences in the surface densities of EROs in R-band and I-band based survey may reflect this color selection effect, complicating the comparisons between and interpretations on the nature of the ERO population. We conclude that only a small fraction of EROs at z∼1-2 could be passively evolving elliptical galaxies formed at high redshift through a ``monolithic collapse'' mechanism. For the majority of EROs, even if most of their stellar mass is already in place at z∼1, interaction with the environment and accretion of gas still play important roles in their continuing evolution.
Abstract Copyright:
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Journal keyword(s):
Galaxies: Elliptical and Lenticular, cD - Galaxies: Fundamental Parameters - Galaxies: High-Redshift - Galaxies: Spiral
VizieR on-line data:
<Available at CDS (J/ApJ/586/765): table1.dat table2.dat>
Nomenclature:
Table 2: [YT2003] NNN (Nos 1-115) = [YT2003] aaaNN-NNN, [YT2003] aNaNN-NNN, [YT2003] aNaaN-NNN, [YT2003] aNNNN-NNN, [YT2003] aaNNN-NNN, N=107.
CDS comments:
paragr. 2.8: Cl 1603+4304 is a misprint for ClG J1604+4304.
Simbad objects:
119
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