Book contents
- Frontmatter
- Contents
- Group photograph
- List of participants
- Preface
- Reviews
- 1 Equations of state in stellar structure and evolution
- 2 Equation of state of stellar plasmas
- 3 Statistical mechanics of quantum plasmas. Path integral formalism
- 4 Onsager-molecule approach to screening potentials in strongly coupled plasmas
- 5 Astrophysical consequences of the screening of nuclear reactions
- 6 Crystallization of dense binary ionic mixtures. Application to white dwarf cooling theory
- 7 Non crystallized regions of White dwarfs. Thermodynamics. Opacity. Turbulent convection
- 8 White dwarf crystallization
- 9 Gravitational collapse versus thermonuclear explosion of degenerate stellar cores
- 10 Neutron star crusts with magnetic fields
- 11 High pressure experiments for astrophysics
- 12 Equation of state of dense hydrogen and the plasma phase transition; A microscopic calculational model for complex fluids
- 13 The equation of state of fluid hydrogen at high density
- 14 A comparative study of hydrogen equations of state
- 15 Strongly coupled ionic mixtures and the H/He equation of state
- 16 White dwarf seismology: Influence of the constitutive physics on the period spectra
- 17 Helioseismology: the Sun as a strongly-constrained, weakly-coupled plasma
- 18 Transport processes in dense stellar plasmas
- 19 Cataclysmic variables: structure and evolution
- 20 Giant planet, brown dwarf, and low-mass star interiors
- 21 Searches for brown dwarfs
- 22 Jovian seismology
- Observational projects
- Posters
18 - Transport processes in dense stellar plasmas
from Reviews
Published online by Cambridge University Press: 07 September 2010
- Frontmatter
- Contents
- Group photograph
- List of participants
- Preface
- Reviews
- 1 Equations of state in stellar structure and evolution
- 2 Equation of state of stellar plasmas
- 3 Statistical mechanics of quantum plasmas. Path integral formalism
- 4 Onsager-molecule approach to screening potentials in strongly coupled plasmas
- 5 Astrophysical consequences of the screening of nuclear reactions
- 6 Crystallization of dense binary ionic mixtures. Application to white dwarf cooling theory
- 7 Non crystallized regions of White dwarfs. Thermodynamics. Opacity. Turbulent convection
- 8 White dwarf crystallization
- 9 Gravitational collapse versus thermonuclear explosion of degenerate stellar cores
- 10 Neutron star crusts with magnetic fields
- 11 High pressure experiments for astrophysics
- 12 Equation of state of dense hydrogen and the plasma phase transition; A microscopic calculational model for complex fluids
- 13 The equation of state of fluid hydrogen at high density
- 14 A comparative study of hydrogen equations of state
- 15 Strongly coupled ionic mixtures and the H/He equation of state
- 16 White dwarf seismology: Influence of the constitutive physics on the period spectra
- 17 Helioseismology: the Sun as a strongly-constrained, weakly-coupled plasma
- 18 Transport processes in dense stellar plasmas
- 19 Cataclysmic variables: structure and evolution
- 20 Giant planet, brown dwarf, and low-mass star interiors
- 21 Searches for brown dwarfs
- 22 Jovian seismology
- Observational projects
- Posters
Summary
Abstract
Transport processes in dense stellar plasmas which are relevant to the interiors of white dwarfs and neutron stars are reviewed. The emphasis is placed on the accuracy of the numerical results. In this review we report on the electrical conductivity and the thermal conductivity of dense matter. The methods of the calculations are different for the liquid metal phase and the crystalline lattice phase. We will broadly review the current status of the calculations of the transport properties of dense matter, and try to give the best instructions available at the present time to the readers.
Nous présentons une revue des propoiétés de transport dans les plasmas denses stellaires caractéristiques des intérieurs de naines blanches et d'étoiles à neutrons. L'accent est mis sur la précision des résultats numériques. Nous présentons la conductivité electrique et la conductivité thermique dans la matière dense. Les méthodes de calcul sont différentes dans la phase liquide et dans la phase cristalline. Nous donnons une revue générale des calculs des propriétés de transport dans la matière dense, et nous essayons de donner les meilleures instructions quant aux données disponibles actuellement.
Introduction
In recent years white dwarf asteroseismology opened up a new fertile land of astrophysics (Bradley & Winget 1991; Bradley, Winget, & Wood 1992). Consequently, the basic physics data which go into white dwarf models need to be sufficiently accurate that they should live up to the standard required by the asteroseismological data.
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- The Equation of State in AstrophysicsIAU Colloquium 147, pp. 394 - 419Publisher: Cambridge University PressPrint publication year: 1994
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