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Imaging the Lyman-alpha Forest

Astrophysics 2009-10-28 v2

Abstract

We show that it is now possible to image optically thick \lya\lya clouds in fluorescent \lya\lya emission with a relatively long (20\sim 20 hr) integration on a large (10\sim 10 m) telescope. For a broad range of column densities (N\gsim1018.5\cm2N\gsim 10^{18.5} \cm^{-2}), the flux of \lya\lya photons from recombination cascades is equal to 0.6\sim 0.6 times the flux of ionizing photons, independent of the geometry of the cloud. Additional \lya\lya photons are produced by collisional excitations when these are the cloud's primary cooling mechanism. For typical physical conditions expected in optically thick clouds, these mechanisms together lead to a \lya\lya emission flux that is (2/3)\VEVν/ν0\sim (2/3) \VEV{\nu}/\nu_0 times the flux of ionizing photons, where \VEVν\VEV{\nu} is the mean frequency of ionizing background photons and ν0\nu_0 is the Lyman limit frequency. Hence, measurement of the surface brightness from an optically thick cloud (known to exist, e.g., from a quasar absorption line) gives a direct measure of the energy in the ionizing radiation background. Moreover, in the same long slit spectrum one could hope to detect emission from 200\sim 200 other \lya\lya systems. Such detections would allow one to make a 2-dimensional map of the \lya\lya forest. By taking a series of such spectra, one could map the forest in three dimensions, revealing structure in the high-redshift universe.

Keywords

Cite

@article{arxiv.astro-ph/9512138,
  title  = {Imaging the Lyman-alpha Forest},
  author = {Andrew Gould and David H. Weinberg},
  journal= {arXiv preprint arXiv:astro-ph/9512138},
  year   = {2009}
}

Comments

Minor numerical change in abstract, no change in text, 23 pages