The Cosmic Star-Formation History: The UV finds most
Abstract
This is a summary of arguments in favor of observing high-redshift star formation in the UV as presented at the Ringberg meeting in September 2000. The most rapidly star-forming galaxies are very dusty, easier to detect at 850um than in the UV, but less rapidly star-forming galaxies are less obscured by dust and as a result the comparatively faint galaxies that hosted most high-redshift star formation are easiest to detect in the UV. The correlation of star-formation rate and dust obscuration implies that extremely luminous dusty galaxies are usually as bright in the UV as the less luminous dust-free galaxies, and that any UV survey at a given redshift 0<z<~3 deep enough to detect the majority of the UV luminosity density will detect the majority of IR-selected galaxies as well. Little star formation occurs in galaxies that are completely hidden from UV surveys. I review recent attempts to estimate star-formation rates for high-redshift galaxies from UV data alone. The strength of UV surveys is that they detect large numbers of high-redshift galaxies, even ones that are intrinsically very faint, in large and representative comoving volumes. The weakness is that star-formation rates are difficult to estimate for the detected galaxies. IR surveys complement them perfectly: star-formation rates can be estimated with reasonable confidence, but only small regions of the sky can be surveyed and only the most luminous sources can be detected. Multiwavelength cooperation, not conflict, will lead to future progress in this field.
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