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29 March 2024
 
  » arxiv » astro-ph/9908007

 Article overview


The Ultraviolet Spectrum of MS 1512-cB58: An Insight into Lyman Break Galaxies
Max Pettini Charles C. Steidel Kurt L. Adelberger Mark Dickinson Mauro Giavalisco ;
Date 2 Aug 1999
Subject astro-ph
AffiliationInstitute of Astronomy) Charles C. Steidel (Palomar Observatory) Kurt L. Adelberger (Palomar Observatory) Mark Dickinson (Space Telescope Science Institute) Mauro Giavalisco (Space Telescope Science Institute
AbstractWe present an intermediate resolution, high S/N spectrum of the z = 2.7268 galaxy MS 1512-cB58, obtained with LRIS on the Keck I telescope and covering the rest frame far-UV from 1150 to 1930 A. Gravitational lensing by a foreground cluster boosts the flux from cB58 by a factor of about 30 and provides the opportunity for a first quantitative study of the physical properties of star forming galaxies at high redshift. Our main results are as follows. The ultraviolet spectral properties of cB58 are remarkably similar to those of nearby star forming galaxies. The P-Cygni profiles of CIV and NV are best matched by continuous star formation with a Salpeter IMF extending beyond 50 solar masses---we find no evidence for either a flatter IMF (at the high mass end), or an IMF deficient in the most massive stars. There are clues in our data that the metallicity of both the stars and the gas is a few times below solar. Our best estimate, approximately equal to 1/4 solar, is 3 times higher than the typical metallicity of damped Lyman alpha systems at the same redshift, consistent with the proposal that the galaxies which dominate the H I absorption cross-section are generally forming stars at a slower rate than L* Lyman break galaxies like cB58. The relative velocities of the stellar lines, interstellar absorption, and H II emission indicate the existence of large-scale outflows in the interstellar medium of cB58, with a bulk outward motion of 200 km/s and a mass loss rate of approximately 60 solar masses per year, roughly comparable to the star formation rate. Such galactic winds may well be the mechanism which self-regulates star formation, distributes metals over large volumes and allows the escape of ionizing photons into the IGM.
Source arXiv, astro-ph/9908007
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