Application of the kinetic theory of partly ionized gases to radiation transfer and ionization in hydrogen nebulae
Date
1963
Authors
Sloan, Ian Hugh
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Abstract
The problem of ionization produced by a hot star embedded in a hydrogen nebula is studied from basic standpoint. The necessary equation of radiative transfer is derived by introducing a distribution function in photon phase-space, and subjecting it to the procedures of classical kinetic theory. It is found that the distribution function can be separated into a singular part corresponding to “direct” radiation from the star, and a non-singular part corresponding to “diffuse” radiation. The concept of statistical equilibrium is applied to the electron population to provide an auxiliary equation, and the Stromgren equation derived as an approximation. A qualitative discussion of the exact equations shows that for a wide range of physical parameters a well defined ionized region surrounds the star. Ionizing radiation undergoes little absorption within this region, but it is rapidly extinguished at the boundary. The radius of the ionized region and the form of the boundary are discussed, and their dependence on the various physical parameters interpreted. Numerical solutions neglecting the effect of diffuse radiation confirm the predictions for that case.
School/Discipline
Dept. of Mathematical Physics
Dissertation Note
Thesis (M.Sc.) -- University of Adelaide, Dept. of Mathematical Physics, 1963.
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