Rayleigh Scattering Cross Section Redward of Lyα by Atomic Hydrogen
Abstract
We present a low energy expansion of the Kramers-Heisenberg formula for atomic hydrogen in terms of (ω/ωl), where ωl and ω are the angular frequencies corresponding to the Lyman limit and the incident radiation, respectively. The leading term is proportional to (ω/ωl)4, which admits a well-known classical interpretation. With higher order terms we achieve accuracy with errors less than 4 % of the scattering cross sections in the region ω/ωl 0.6. In the neighboring region around Lyα (ω/ωl >0.6), we also present an explicit expansion of the Kramers-Heisenberg formula in terms of ω (ω-ωLyα)/ωLyα. The accuracy with errors less than 4 % can be attained for ω/ωl 0.6 with the expansion up to the fifth order of ω. We expect that these formulae will be usefully applied to the radiative transfer in high neutral column density regions, including the Gunn-Peterson absorption troughs and Rayleigh scattering in the atmospheres of giants.
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