We present X-shooter observations of CASSOWARY 20 (CSWA 20), a star-forming
(SFR ~6-7 Msol/yr) galaxy at z=1.433, magnified by a factor of 11.5 by the
gravitational lensing produced by a massive foreground galaxy at z=0.741. We
analysed the integrated physical properties of the HII regions of CSWA 20 using
temperature- and density-sensitive emission lines. We find the abundance of
oxygen to be ~1/7 of solar, while carbon is ~50 times less abundant than in the
Sun. The unusually low C/O ratio may be an indication of a particularly rapid
timescale of chemical enrichment. The wide wavelength coverage of X-shooter
gives us access to five different methods for determining the metallicity of
CSWA 20, three based on emission lines from HII regions and two on absorption
features formed in the atmospheres of massive stars. All five estimates are in
agreement, within the factor of ~2 uncertainty of each method. The interstellar
medium of CSWA 20 only partially covers the star-forming region as viewed from
our direction; in particular, absorption lines from neutrals and first ions are
exceptionally weak. We find evidence for large-scale outflows of the
interstellar medium (ISM) with speeds of up 750 km/s, similar to the values
measured in other high-z galaxies sustaining much higher rates of star
formation.
Description
[1311.5092] Testing metallicity indicators at z~1.4 with the gravitationally lensed galaxy CASSOWARY 20
%0 Generic
%1 james2013testing
%A James, Bethan L.
%A Pettini, Max
%A Christensen, Lise
%A Auger, Matthew W.
%A Becker, George D.
%A Quider, Anna M.
%A Shapley, Alice E.
%A Steidel, Charles C.
%D 2013
%K galaxy lensed metallicity winds
%T Testing metallicity indicators at z~1.4 with the gravitationally lensed
galaxy CASSOWARY 20
%U http://arxiv.org/abs/1311.5092
%X We present X-shooter observations of CASSOWARY 20 (CSWA 20), a star-forming
(SFR ~6-7 Msol/yr) galaxy at z=1.433, magnified by a factor of 11.5 by the
gravitational lensing produced by a massive foreground galaxy at z=0.741. We
analysed the integrated physical properties of the HII regions of CSWA 20 using
temperature- and density-sensitive emission lines. We find the abundance of
oxygen to be ~1/7 of solar, while carbon is ~50 times less abundant than in the
Sun. The unusually low C/O ratio may be an indication of a particularly rapid
timescale of chemical enrichment. The wide wavelength coverage of X-shooter
gives us access to five different methods for determining the metallicity of
CSWA 20, three based on emission lines from HII regions and two on absorption
features formed in the atmospheres of massive stars. All five estimates are in
agreement, within the factor of ~2 uncertainty of each method. The interstellar
medium of CSWA 20 only partially covers the star-forming region as viewed from
our direction; in particular, absorption lines from neutrals and first ions are
exceptionally weak. We find evidence for large-scale outflows of the
interstellar medium (ISM) with speeds of up 750 km/s, similar to the values
measured in other high-z galaxies sustaining much higher rates of star
formation.
@misc{james2013testing,
abstract = {We present X-shooter observations of CASSOWARY 20 (CSWA 20), a star-forming
(SFR ~6-7 Msol/yr) galaxy at z=1.433, magnified by a factor of 11.5 by the
gravitational lensing produced by a massive foreground galaxy at z=0.741. We
analysed the integrated physical properties of the HII regions of CSWA 20 using
temperature- and density-sensitive emission lines. We find the abundance of
oxygen to be ~1/7 of solar, while carbon is ~50 times less abundant than in the
Sun. The unusually low C/O ratio may be an indication of a particularly rapid
timescale of chemical enrichment. The wide wavelength coverage of X-shooter
gives us access to five different methods for determining the metallicity of
CSWA 20, three based on emission lines from HII regions and two on absorption
features formed in the atmospheres of massive stars. All five estimates are in
agreement, within the factor of ~2 uncertainty of each method. The interstellar
medium of CSWA 20 only partially covers the star-forming region as viewed from
our direction; in particular, absorption lines from neutrals and first ions are
exceptionally weak. We find evidence for large-scale outflows of the
interstellar medium (ISM) with speeds of up 750 km/s, similar to the values
measured in other high-z galaxies sustaining much higher rates of star
formation.},
added-at = {2013-11-21T16:37:42.000+0100},
author = {James, Bethan L. and Pettini, Max and Christensen, Lise and Auger, Matthew W. and Becker, George D. and Quider, Anna M. and Shapley, Alice E. and Steidel, Charles C.},
biburl = {https://www.bibsonomy.org/bibtex/2792b5dbee974a4cb906e6572788de875/miki},
description = {[1311.5092] Testing metallicity indicators at z~1.4 with the gravitationally lensed galaxy CASSOWARY 20},
interhash = {8c8722bd02e24a45918c537e64c44e19},
intrahash = {792b5dbee974a4cb906e6572788de875},
keywords = {galaxy lensed metallicity winds},
note = {cite arxiv:1311.5092Comment: 18 pages, 11 figures, submitted to MNRAS on 20/09/2013},
timestamp = {2013-11-21T16:37:42.000+0100},
title = {Testing metallicity indicators at z~1.4 with the gravitationally lensed
galaxy CASSOWARY 20},
url = {http://arxiv.org/abs/1311.5092},
year = 2013
}