Galaxy Evolution through Infrared Surveys: from Spitzer to Herschel
Abstract
The Spitzer Space Telescope is devoting a significant fraction of the observing time to multi-wavelength cosmological surveys of different depths in various low-background sky regions. Several tens of thousand mid-IR galaxies have been detected over a wide interval of redshifts. A progressively clearer picture of galaxy evolution is emerging, which emphasizes populations of luminous galaxies at z>1,likely corresponding to the main phases of stellar formation and galaxy assembly. These results are entirely consistent with previous outcomes from ISO, SCUBA and COBE observations, and provide valuable constraints of high statistical and photometric precision. We briefly report here on our attempt to extract from statistical data some general properties of galaxy evolution and describe evidence that a population of very luminous objects at z>1.5 share different properties from those of starbursts at lower redshifts, indicating some seemingly anti-hierarchical behavior of galaxy evolution in the IR. We warn, however, that these results are based on large, still uncertain, extrapolations of the observed mid-IR to bolometric fluxes, for measuring which the forthcoming far-IR and submillimetre Herschel Space Observatory will be needed. We finally comment, based on our present understanding, about Herschel capabilities for investigating the early phases of galaxy evolution.
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