Journal
ASTROPHYSICAL JOURNAL
Volume 853, Issue 1, Pages -Publisher
IOP PUBLISHING LTD
DOI: 10.3847/1538-4357/aaa2fc
Keywords
galaxies: evolution; galaxies: high-redshift; gravitational lensing: strong; intergalactic medium; stars: winds, outflows
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Funding
- NASA by Space Telescope Science Institute [51354]
- NASA [NAS 5-26555]
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We stack the rest-frame ultraviolet spectra of N = 14 highly magnified gravitationally lensed galaxies at redshifts 1.6 < z < 3.6. The resulting new composite spans 900 < lambda(rest) < 3000 angstrom, with a peak signal-to-noise ratio (S/N) of 103 per spectral resolution element (similar to 100 km s(-1)). It is the highest S/N, highest spectral resolution composite spectrum of z similar to 2-3 galaxies yet published. The composite reveals numerous weak nebular emission lines and stellar photospheric absorption lines that can serve as new physical diagnostics, particularly at high redshift with the James Webb Space Telescope (JWST). We report equivalent widths to aid in proposing for and interpreting JWST spectra. We examine the velocity profiles of strong absorption features in the composite, and in a matched composite of z similar to 0 COS/HST galaxy spectra. We find remarkable similarity in the velocity profiles at z similar to 0 and z similar to 2, suggesting that similar physical processes control the outflows across cosmic time. While the maximum outflow velocity depends strongly on ionization potential, the absorption-weighted mean velocity does not. As such, the bulk of the high-ionization absorption traces the low-ionization gas, with an additional blueshifted absorption tail extending to at least -2000 km s(-1). We interpret this tail as arising from the stellar wind and photospheres of massive stars. Starburst99 models are able to replicate this high-velocity absorption tail. However, these theoretical models poorly reproduce several of the photospheric absorption features, indicating that improvements are needed to match observational constraints on the massive stellar content of star-forming galaxies at z similar to 2. We publicly release our composite spectra.
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