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Title:
High-redshift galaxies in the Hubble Deep Field: colour selection and star formation history to z~4
Authors:
Madau, Piero; Ferguson, Henry C.; Dickinson, Mark E.; Giavalisco, Mauro; Steidel, Charles C.; Fruchter, Andrew
Affiliation:
AA(Space Telescope Science Institute, 3700 San Martin Drive, Baltimore MD 21218, USA), AB(Space Telescope Science Institute, 3700 San Martin Drive, Baltimore MD 21218, USA), AC(Space Telescope Science Institute, 3700 San Martin Drive, Baltimore MD 21218, USA), AD(Carnegie Observatories, 813 Santa Barbara Street, Pasadena, CA 91101-1292, USA), AE(Palomar Observatory, California Institute of Technology, Mail Stop 105-24, Pasadena, CA 91125, USA), AF(Space Telescope Science Institute, 3700 San Martin Drive, Baltimore MD 21218, USA)
Publication:
Monthly Notices of the Royal Astronomical Society, Volume 283, Issue 4, pp. 1388-1404. (MNRAS Homepage)
Publication Date:
12/1996
Origin:
MNRAS
Astronomy Keywords:
STARS: FORMATION, GALAXIES: EVOLUTION, INTERGALACTIC MEDIUM, QUASARS: ABSORPTION LINES, COSMOLOGY: OBSERVATIONS, ULTRAVIOLET: GALAXIES
DOI:
10.1093/mnras/283.4.1388
Bibliographic Code:
1996MNRAS.283.1388M

Abstract

The Lyman decrement associated with the cumulative effect of HI in QSO absorption systems along the line of sight provides a distinctive feature for identifying galaxies at z>~2.5. Colour criteria, which are sensitive to the presence of a Lyman continuum break superposed on an otherwise flat UV spectrum, have been shown, through Keck spectroscopy, to successfully identify a substantial population of star-forming galaxies at 3<~z<~3.5. Such objects have proven to be surprisingly elusive in field galaxy redshift surveys; quantification of their surface densities and morphologies is crucial for determining how and when galaxies formed. The Hubble Deep Field (HDF) observations offer the opportunity to exploit the ubiquitous effect of intergalactic absorption and obtain useful statistical constraints on the redshift distribution of galaxies to considerably fainter limits than the current spectroscopic limits. We model the HI cosmic opacity as a function of redshift, including scattering in resonant lines of the Lyman series and Lyman continuum absorption, and use stellar population synthesis models with a wide variety of ages, metallicities, dust contents and redshifts to derive colour selection criteria that provide a robust separation between high-redshift and low-redshift galaxies. From the HDF images we construct a sample of star-forming galaxies at 2<~z<~4.5. While none of the ~60 objects in the HDF having known Keck/Low-Resolution Imaging Spectrograph (LRIS) spectroscopic redshifts in the range 0<~z<~1.4 is found to contaminate our high-redshift sample, our colour criteria are able to efficiently select the 2.6<~z<~3.2 galaxies identified by Steidel et al. The ultraviolet (and blue) dropout technique opens up the possibility of investigating cosmic star and element formation in the early Universe. We set a lower limit to the ejection rate of heavy elements per unit comoving volume from Type II supernovae at <z>=2.75 of ~=3.6x10^-4 M_solar yr^-1 Mpc^-3 (for q_0=0.5 and H_0=50 km s^-1 Mpc^-1), which is 3 times higher than the local value but still 4 times lower than the rate observed at z~=1. At <z>=4, our lower limit to the cosmic metal ejection rate is ~=3 times lower than the <z>=2.75 value. We discuss the implications of these results on models of galaxy formation, and on the chemical enrichment and ionization history of the intergalactic medium.

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