Lyman Alpha Cooling Radiation from High-Redshift Halos

Abstract

The baryons inside high-redshift halos with virial temperatures above T=104 K cool radiatively as they condense inside dark matter potential wells. We show that the release of the gravitational binding energy, over the halo assembly time-scale, results in a significant and detectable Ly alpha flux. At the limiting line flux of approximately 10-19 erg/s/cm2/asec2 of the Next Generation Space Telescope, several sufficiently massive halos, with velocity dispersions above sigma=120 km/s, would be visible per 4'x4' field. The halos would have characteristic angular sizes of approximately 10 asec, would be detectable in a broad-band survey out to redshifts z=6-8, and would provide a direct probe of galaxies in the process of forming. They may be accompanied by HeII Ly alpha emission at the 10 percent level, but remain undetectable at other wavelengths. Our predictions are in good agreement with the recent finding of two Ly alpha ``blobs'' at z=3.1 by Steidel et al. (1999).

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