Rosseland and Flux Mean Opacities for Compton Scattering

Rosseland mean opacity plays an important role in theories of stellar evolution and X-ray burst models. In the high-temperature regime, when most of the gas is completely ionized, the opacity is dominated by Compton scattering. Our aim here is to critically evaluate previous works on this subject an...

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Published in	The Astrophysical journal Vol. 835; no. 2; pp. 119 - 126
Main Author	Poutanen, Juri
Format	Journal Article
Language	English
Published	Philadelphia The American Astronomical Society 01.02.2017 IOP Publishing
Subjects	ABSORPTION APPROXIMATIONS Astronomical models Astrophysics ASTROPHYSICS, COSMOLOGY AND ASTRONOMY COMPARATIVE EVALUATIONS COMPTON EFFECT COMPUTERIZED SIMULATION dense matter DIFFUSION Elastic scattering ELECTRONS Fluctuations Flux High temperature Integral equations Kinetic equations Low temperature MEAN FREE PATH NEUTRONS OPACITY PHOTONS RADIANT HEAT TRANSFER radiative transfer RELATIVISTIC RANGE scattering STAR EVOLUTION STARS stars: neutron Stellar evolution TEMPERATURE DEPENDENCE Temperature range Temperature regime X RADIATION X-ray bursts X-rays: bursts
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Abstract	Rosseland mean opacity plays an important role in theories of stellar evolution and X-ray burst models. In the high-temperature regime, when most of the gas is completely ionized, the opacity is dominated by Compton scattering. Our aim here is to critically evaluate previous works on this subject and to compute the exact Rosseland mean opacity for Compton scattering over a broad range of temperature and electron degeneracy parameter. We use relativistic kinetic equations for Compton scattering and compute the photon mean free path as a function of photon energy by solving the corresponding integral equation in the diffusion limit. As a byproduct we also demonstrate the way to compute photon redistribution functions in the case of degenerate electrons. We then compute the Rosseland mean opacity as a function of temperature and electron degeneracy and present useful approximate expressions. We compare our results to previous calculations and find a significant difference in the low-temperature regime and strong degeneracy. We then proceed to compute the flux mean opacity in both free-streaming and diffusion approximations, and show that the latter is nearly identical to the Rosseland mean opacity. We also provide a simple way to account for the true absorption in evaluating the Rosseland and flux mean opacities.
AbstractList	Rosseland mean opacity plays an important role in theories of stellar evolution and X-ray burst models. In the high-temperature regime, when most of the gas is completely ionized, the opacity is dominated by Compton scattering. Our aim here is to critically evaluate previous works on this subject and to compute the exact Rosseland mean opacity for Compton scattering over a broad range of temperature and electron degeneracy parameter. We use relativistic kinetic equations for Compton scattering and compute the photon mean free path as a function of photon energy by solving the corresponding integral equation in the diffusion limit. As a byproduct we also demonstrate the way to compute photon redistribution functions in the case of degenerate electrons. We then compute the Rosseland mean opacity as a function of temperature and electron degeneracy and present useful approximate expressions. We compare our results to previous calculations and find a significant difference in the low-temperature regime and strong degeneracy. We then proceed to compute the flux mean opacity in both free-streaming and diffusion approximations, and show that the latter is nearly identical to the Rosseland mean opacity. We also provide a simple way to account for the true absorption in evaluating the Rosseland and flux mean opacities.
Author	Poutanen, Juri
Author_xml	– sequence: 1 givenname: Juri orcidid: 0000-0002-0983-0049 surname: Poutanen fullname: Poutanen, Juri email: juri.poutanen@utu.fi organization: KTH Royal Institute of Technology and Stockholm University Nordita, Roslagstullsbacken 23, SE-10691 Stockholm, Sweden
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Snippet	Rosseland mean opacity plays an important role in theories of stellar evolution and X-ray burst models. In the high-temperature regime, when most of the gas is...
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SubjectTerms	ABSORPTION APPROXIMATIONS Astronomical models Astrophysics ASTROPHYSICS, COSMOLOGY AND ASTRONOMY COMPARATIVE EVALUATIONS COMPTON EFFECT COMPUTERIZED SIMULATION dense matter DIFFUSION Elastic scattering ELECTRONS Fluctuations Flux High temperature Integral equations Kinetic equations Low temperature MEAN FREE PATH NEUTRONS OPACITY PHOTONS RADIANT HEAT TRANSFER radiative transfer RELATIVISTIC RANGE scattering STAR EVOLUTION STARS stars: neutron Stellar evolution TEMPERATURE DEPENDENCE Temperature range Temperature regime X RADIATION X-ray bursts X-rays: bursts
Title	Rosseland and Flux Mean Opacities for Compton Scattering
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