The ultraviolet spectrum of the gravitationally lensed galaxy 'the Cosmic Horseshoe': a close-up of a star-forming galaxy at z∼ 2
Abstract
Taking advantage of strong gravitational lensing, we have recorded the rest-frame ultraviolet (UV) spectrum of the z= 2.38115 galaxy 'the Cosmic Horseshoe' (J1148+1930) at higher resolution and signal-to-noise ratio than is currently feasible for unlensed galaxies at z= 2–3 . With a star formation rate of ~100 M_⊙ yr^(−1) , dynamical mass M_vir≃ 1 × 10^(10) M_⊙ , half-solar metallicity and moderate reddening E(B−V) = 0.15 , the Cosmic Horseshoe is a good example of the population of galaxies responsible for most of the star formation activity at these redshifts. From the analysis of stellar spectral features we conclude that a continuous mode of star formation with a Salpeter slope for stars in the mass range 5–100 M_⊙ gives a good representation of the UV spectrum, ruling out significant departures from a 'standard' initial mass function. Generally, we find good agreement between the values of metallicity deduced from stellar and nebular tracers. Interstellar absorption is present over a velocity range Δv≃ 1000 km s^(−1) , from −800 to +250 km s^(−1) relative to the stars and their H ii regions, but we still lack a model relating the kinematic structure of the gas to its location within the galaxy. There is evidence to suggest that the outflowing interstellar gas is patchy, covering only ∼60 per cent of the UV stellar continuum. The Lyα line shares many of the characteristics of the so-called Lyα emitters; its double-peaked profile can be reproduced by models of Lyα photons resonantly scattered by an expanding shell of gas and dust, with ∼10–15 per cent of the photons escaping the galaxy. Many of the physical properties of the Cosmic Horseshoe are similar to those of the only other galaxy at z= 2–3 studied in comparable detail up to now: MS 1512−cB58. The fact that these two galaxies have drastically different Lyα lines may be due simply to orientation effects, or differences in the covering factor of outflowing gas, and cautions against classifying high-z galaxies only on the basis of spectral features, such as Lyα, whose appearance can be affected by a variety of different parameters.
Additional Information
Journal compilation © 2009 RAS. Accepted 2009 June 8. Received 2009 June 7; in original form 2009 May 1. We are grateful to the staff at the W. M. Keck Observatory for their competent assistance with the observations, to Sam Rix and Dan Nestor who generously provided some of the software used in the analysis of the spectra and to Simon Dye for clarifications concerning the lensing models. Lindsay King kindly allowed us to reproduce her ESO/FORS2 image of the Cosmic Horseshoe in Fig. 1. We also thank the anonymous referee for helpful comments which have improved the paper. AMQ's research is funded by a scholarship from the Marshall Foundation. AES acknowledges support from the David and Lucile Packard Foundation and the Alfred P. Sloan Foundation, and CCS acknowledges support from NSF grant AST-0606912 and the John D. and Catherine T. MacArthur Foundation. Finally, we wish to extend thanks to those of Hawaiian ancestry on whose mountain we are privileged to be guests.Attached Files
Published - Quider2009p5965Mon_Not_R_Astron_Soc.pdf
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Additional details
- Eprint ID
- 16171
- Resolver ID
- CaltechAUTHORS:20091002-133653002
- Marshall Foundation
- David and Lucile Packard Foundation
- Alfred P. Sloan Foundation
- AST-0606912
- NSF
- John D. and Catherine T. MacArthur Foundation
- Created
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2009-10-05Created from EPrint's datestamp field
- Updated
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2021-11-08Created from EPrint's last_modified field