83 research outputs found
Assessing the galaxy population out to z ~ 2 using the Hubble Deep Field South
In this work we use the Hubble Deep Field South (HDF-S) version 2 images to
assess the galaxy population out to z ~ 2. We have used two methods of
templates fitting of the spectral energy distributions to obtain photometric
redshifts and classify the objects. The Bayesian photometric redshifts gave
better results when compared with 54 spectroscopic redshifts available in the
literature. Analysis of the rest-frame colour distribution shows a bimodality
out to z ~ 1.4. We separated our sample in a blue and a red population at B-V =
0.29. At low redshifts (0.2 0.29
whereas at higher redshifts ~ 60% of the galaxies are bluer than B-V < 0.29.
Although in low numbers, a population of early-type galaxies (or heavily
obscured low redshift galaxies) is seen out to z ~ 2.Comment: 7 pages, 7 figures, online material (the gallery) available at
http://www.oso.chalmers.se/~theresaw/Deep/gallery.htm
Morphology Transformation in Pairs of Galaxies - The Local Sample
We present photometric analysis of a local sample of 14 isolated pairs of
galaxies. The photometric properties analyzed in the local pairs are: colors,
morphology, tidal effects and activity. We verify that close pairs have an
excess of early-type galaxies and many elliptical galaxies in this pairs are,
in fact, lenticular galaxies. Many late-pairs in our sample show strong tidal
damage and blue star formation regions. We conclude that pairs of different
morphologies may have passed through different evolution processes which
violently transformed their morphology. Pairs with at least one early-type
component may be descendents of groups of galaxies. However, late-type pairs
are probably long-lived showing clearly signs of interaction. Some of them
could be seen as an early stage of mergers. These photometric database will be
used for future comparison with more distant pairs in order to study galaxy
evolution.Comment: 14 pages LaTeX file, 7 gif figures, uses epsf.sty, l-aa.st
Far-Ultraviolet Number Counts on Field Galaxies
The far-ultraviolet (FUV) number counts of galaxies constrain the evolution of the star formation rate density of the universe. We report the FUV number counts computed from FUV imaging of several fields including the Hubble Ultra Deep Field, the Hubble Deep Field North, and small areas within the GOODS-North and South fields. These data were obtained with the Hubble Space Telescope (HST) Solar Blind Channel of the Advance Camera for Surveys. The number counts sample an FUV AB magnitude range from 21 to 29 and cover a total area of 15.9 arcmin^2, ~4 times larger than the most recent HST FUV study. Our FUV counts intersect bright FUV Galaxy Evolution Explorer counts at 22.5 mag and they show good agreement with recent semi-analytic models based on dark matter "merger trees" by R. S. Somerville et al. We show that the number counts are ~35% lower than in previous HST studies that use smaller areas. The differences between these studies are likely the result of cosmic variance; our new data cover more lines of sight and more area than previous HST FUV studies. The integrated light from field galaxies is found to contribute between 65.9^(+8)_(–8) and 82.6^(+12)_(–)12 photons s^(–1) cm^(–2) sr^(–1) Å^(–1) to the FUV extragalactic background. These measurements set a lower limit for the total FUV background light
Far-Ultraviolet Number Counts of Field Galaxies
The far-ultraviolet (FUV) number counts of galaxies constrain the evolution
of the star-formation rate density of the universe. We report the FUV number
counts computed from FUV imaging of several fields including the Hubble Ultra
Deep Field, the Hubble Deep Field North, and small areas within the GOODS-North
and -South fields. These data were obtained with the Hubble Space Telescope
Solar Blind Channel of the Advance Camera for Surveys. The number counts sample
a FUV AB magnitude range from 21-29 and cover a total area of 15.9 arcmin^2, ~4
times larger than the most recent HST FUV study. Our FUV counts intersect
bright FUV GALEX counts at 22.5 mag and they show good agreement with recent
semi-analytic models based on dark matter "merger trees" by Somerville et al.
(2011). We show that the number counts are ~35% lower than in previous HST
studies that use smaller areas. The differences between these studies are
likely the result of cosmic variance; our new data cover more lines of sight
and more area than previous HST FUV studies. The integrated light from field
galaxies is found to contribute between 65.9 +/-8 - 82.6 +/-12
photons/s/cm^2/sr/angstrom to the FUV extragalactic background. These
measurements set a lower limit for the total FUV background light.Comment: Accepted for publication in ApJ, including 34 pages, 6 figures, and 2
table
Near-Ultraviolet Sources in the Hubble Ultra Deep Field: The Catalog
The catalog from the first high-resolution U-band image of the Hubble Ultra Deep Field, taken with Hubble's Wide-Field Planetary Camera 2 through the F300W filter, is presented. We detect 96 U-band objects and compare and combine this catalog with a Great Observatories Origins Deep Survey B-selected catalog that provides B, V, i, and z photometry, spectral types, and photometric redshifts. We have also obtained far-ultraviolet (FUV, 1614 Ă…) data with Hubble's Advanced Camera for Surveys Solar Blind Channel (ACS/SBC) and with GALEX. We detected 31 sources with ACS/SBC, 28 with GALEX/FUV, and 45 with GALEX/NUV. The methods of observations, image processing, object identification, catalog preparation, and catalog matching are presented
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