Verfügbarkeit: Physical kinetics /

Physical kinetics /:

This volume is mainly concerned with a systematic development of the theory of plasmas, the authority being firmly rooted in the pioneering work of Landau. Corresponding results are also given for partially ionized plasmas, relativistic plasmas, degenerate or non-ideal plasmas and solid state plasma...

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Hauptverfasser:	Lifshit︠s︡, E. M. (Evgeniĭ Mikhaĭlovich) (VerfasserIn), Pitaevskiĭ, L. P. (Lev Petrovich) (VerfasserIn)
Format:	Elektronisch E-Book
Sprache:	English Russian
Veröffentlicht:	Amsterdam ; Boston : Elsevier : Butterworth Heinemann, 2008.
Schriftenreihe:	Landau, L. D. (Lev Davidovich), 1908-1968. Teoreticheskai︠a︡ fizika. v. 10.
Schlagworte:	Plasma (Ionized gases) Plasma (Gaz ionisés) SCIENCE > Energy. SCIENCE > Mechanics > General. SCIENCE > Physics > General.
Online-Zugang:	Volltext Volltext
Zusammenfassung:	This volume is mainly concerned with a systematic development of the theory of plasmas, the authority being firmly rooted in the pioneering work of Landau. Corresponding results are also given for partially ionized plasmas, relativistic plasmas, degenerate or non-ideal plasmas and solid state plasmas.
Beschreibung:	1 online resource (xi, 452 pages) : illustrations.
ISBN:	1280581905 9781280581908 9786613611680 6613611689

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MARC


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505	8		\|a 13. Transport phenomena in a gas in an external field14. Phenomena in slightly rarefied gases; 15. Phenomena in highly rarefied gases; 16. Dynamical derivation of the transport equation; 17. The transport equation including three-particle collisions; 18. The virial expansion of the kinetic coefficients; 19. Fluctuations of the distribution function in an equilibrium gas; 20. Fluctuations of the distribution function in a non-equilibrium gas; CHAPTER II. THE DIFFUSION APPROXIMATION; 21. The Fokker-Planck equation; 22. A weakly ionized gas in an electric field
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505	8		\|a 39. Solitons in a weakly dispersing medium40. Permittivity of a degenerate collisionless plasma; CHAPTER IV. COLLISIONS IN PLASMAS; 41. The Landau collision integral; 42. Energy transfer between electrons and ions; 43. Mean free path of plasma particles; 44. Lorentzian plasmas; 45. Runaway electrons; 46. Convergent collision integrals; 47. Interaction via plasma waves; 48. Plasma absorption in the high-frequency limit; 49. Quasi-linear theory of Landau damping; 50. The transport equation for a relativistic plasma; 51. Fluctuations in plasmas; CHAPTER V. PLASMAS IN MAGNETIC FIELDS
505	8		\|a 52. Permittivity of a collisionless cold plasma53. The distribution function in a magnetic field; 54. Permittivity of a magnetoactive Maxwellian plasma; 55. Landau damping in magnetoactive plasmas; 56. Electromagnetic waves in a magnetoactive cold plasma; 57. Effect of thermal motion on electromagnetic wave propagation in magnetoactive plasmas; 58. Equations of fluid dynamics in a magnetoactive plasma; 59. Transport coefficients of a plasma in a strong magnetic field; 60. The drift approximation; CHAPTER VI. INSTABILITY THEORY; 61. Beam instability; 62. Absolute and convective instabilities
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contents	Front Cover; Physical Kinetics; Copyright Page; Table of Contents; PREFACE; NOTATION; CHAPTER I. KINETIC THEORY OF GASES; 1. The distribution function; 2. The principle of detailed balancing; 3. The Boltzmann transport equation; 4. The H theorem; 5. The change to macroscopic equations; 6. The transport equation for a slightly inhomogeneous gas; 7. Thermal conduction in the gas; 8. Viscosity in the gas; 9. Symmetry of the kinetic coefficients; 10. Approximate solution of the transport equation; 11. Diffusion of a light gas in a heavy gas; 12. Diffusion of a heavy gas in a light gas 13. Transport phenomena in a gas in an external field14. Phenomena in slightly rarefied gases; 15. Phenomena in highly rarefied gases; 16. Dynamical derivation of the transport equation; 17. The transport equation including three-particle collisions; 18. The virial expansion of the kinetic coefficients; 19. Fluctuations of the distribution function in an equilibrium gas; 20. Fluctuations of the distribution function in a non-equilibrium gas; CHAPTER II. THE DIFFUSION APPROXIMATION; 21. The Fokker-Planck equation; 22. A weakly ionized gas in an electric field 23. Fluctuations in a weakly ionized non-equilibrium gas24. Recombination and ionization; 25. Ambipolar diffusion; 26. Ion mobility in solutions of strong electrolytes; CHAPTER III. COLLISIONLESS PLASMAS; 27. The self-consistent field; 28. Spatial dispersion in plasmas; 29. The permittivity of a collisionless plasma; 30. Landau damping; 31. Permittivity of a Maxwellian plasma; 32. Longitudinal plasma waves; 33. Ion-sound waves; 34. Relaxation of the initial perturbation; 35. Plasma echoes; 36. Adiabatic electron capture; 37. Quasi-neutral plasmas; 38. Fluid theory for a two-temperature plasma 39. Solitons in a weakly dispersing medium40. Permittivity of a degenerate collisionless plasma; CHAPTER IV. COLLISIONS IN PLASMAS; 41. The Landau collision integral; 42. Energy transfer between electrons and ions; 43. Mean free path of plasma particles; 44. Lorentzian plasmas; 45. Runaway electrons; 46. Convergent collision integrals; 47. Interaction via plasma waves; 48. Plasma absorption in the high-frequency limit; 49. Quasi-linear theory of Landau damping; 50. The transport equation for a relativistic plasma; 51. Fluctuations in plasmas; CHAPTER V. PLASMAS IN MAGNETIC FIELDS 52. Permittivity of a collisionless cold plasma53. The distribution function in a magnetic field; 54. Permittivity of a magnetoactive Maxwellian plasma; 55. Landau damping in magnetoactive plasmas; 56. Electromagnetic waves in a magnetoactive cold plasma; 57. Effect of thermal motion on electromagnetic wave propagation in magnetoactive plasmas; 58. Equations of fluid dynamics in a magnetoactive plasma; 59. Transport coefficients of a plasma in a strong magnetic field; 60. The drift approximation; CHAPTER VI. INSTABILITY THEORY; 61. Beam instability; 62. Absolute and convective instabilities
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indexdate	2024-11-27T13:18:21Z
institution	BVB
isbn	1280581905 9781280581908 9786613611680 6613611689
language	English Russian
oclc_num	787847146
open_access_boolean
owner	MAIN DE-863 DE-BY-FWS
owner_facet	MAIN DE-863 DE-BY-FWS
physical	1 online resource (xi, 452 pages) : illustrations.
psigel	ZDB-4-EBA
publishDate	2008
publishDateSearch	1981 2008
publishDateSort	2008
publisher	Elsevier : Butterworth Heinemann,
record_format	marc
series	Landau, L. D. (Lev Davidovich), 1908-1968. Teoreticheskai︠a︡ fizika.
series2	Course of theoretical physics ;
spelling	Lifshit︠s︡, E. M. (Evgeniĭ Mikhaĭlovich), author. https://id.oclc.org/worldcat/entity/E39PBJmdtjmWRvVJwhGGqx6tKd http://id.loc.gov/authorities/names/n50072240 Physical kinetics / by E.M. Lifshitz and L.P. Pitaevskiĭ ; translated from the Russian by J.B. Sykes and R.N. Franklin. Amsterdam ; Boston : Elsevier : Butterworth Heinemann, 2008. ©1981 1 online resource (xi, 452 pages) : illustrations. text txt rdacontent computer c rdamedia online resource cr rdacarrier text file rdaft http://rdaregistry.info/termList/fileType/1002. Course of theoretical physics ; v. 10 Online resource; title from (ebrary, viewed Sept., 13, 2012). Front Cover; Physical Kinetics; Copyright Page; Table of Contents; PREFACE; NOTATION; CHAPTER I. KINETIC THEORY OF GASES; 1. The distribution function; 2. The principle of detailed balancing; 3. The Boltzmann transport equation; 4. The H theorem; 5. The change to macroscopic equations; 6. The transport equation for a slightly inhomogeneous gas; 7. Thermal conduction in the gas; 8. Viscosity in the gas; 9. Symmetry of the kinetic coefficients; 10. Approximate solution of the transport equation; 11. Diffusion of a light gas in a heavy gas; 12. Diffusion of a heavy gas in a light gas 13. Transport phenomena in a gas in an external field14. Phenomena in slightly rarefied gases; 15. Phenomena in highly rarefied gases; 16. Dynamical derivation of the transport equation; 17. The transport equation including three-particle collisions; 18. The virial expansion of the kinetic coefficients; 19. Fluctuations of the distribution function in an equilibrium gas; 20. Fluctuations of the distribution function in a non-equilibrium gas; CHAPTER II. THE DIFFUSION APPROXIMATION; 21. The Fokker-Planck equation; 22. A weakly ionized gas in an electric field 23. Fluctuations in a weakly ionized non-equilibrium gas24. Recombination and ionization; 25. Ambipolar diffusion; 26. Ion mobility in solutions of strong electrolytes; CHAPTER III. COLLISIONLESS PLASMAS; 27. The self-consistent field; 28. Spatial dispersion in plasmas; 29. The permittivity of a collisionless plasma; 30. Landau damping; 31. Permittivity of a Maxwellian plasma; 32. Longitudinal plasma waves; 33. Ion-sound waves; 34. Relaxation of the initial perturbation; 35. Plasma echoes; 36. Adiabatic electron capture; 37. Quasi-neutral plasmas; 38. Fluid theory for a two-temperature plasma 39. Solitons in a weakly dispersing medium40. Permittivity of a degenerate collisionless plasma; CHAPTER IV. COLLISIONS IN PLASMAS; 41. The Landau collision integral; 42. Energy transfer between electrons and ions; 43. Mean free path of plasma particles; 44. Lorentzian plasmas; 45. Runaway electrons; 46. Convergent collision integrals; 47. Interaction via plasma waves; 48. Plasma absorption in the high-frequency limit; 49. Quasi-linear theory of Landau damping; 50. The transport equation for a relativistic plasma; 51. Fluctuations in plasmas; CHAPTER V. PLASMAS IN MAGNETIC FIELDS 52. Permittivity of a collisionless cold plasma53. The distribution function in a magnetic field; 54. Permittivity of a magnetoactive Maxwellian plasma; 55. Landau damping in magnetoactive plasmas; 56. Electromagnetic waves in a magnetoactive cold plasma; 57. Effect of thermal motion on electromagnetic wave propagation in magnetoactive plasmas; 58. Equations of fluid dynamics in a magnetoactive plasma; 59. Transport coefficients of a plasma in a strong magnetic field; 60. The drift approximation; CHAPTER VI. INSTABILITY THEORY; 61. Beam instability; 62. Absolute and convective instabilities This volume is mainly concerned with a systematic development of the theory of plasmas, the authority being firmly rooted in the pioneering work of Landau. Corresponding results are also given for partially ionized plasmas, relativistic plasmas, degenerate or non-ideal plasmas and solid state plasmas. English. Plasma (Ionized gases) http://id.loc.gov/authorities/subjects/sh85103050 Plasma (Gaz ionisés) SCIENCE Energy. bisacsh SCIENCE Mechanics General. bisacsh SCIENCE Physics General. bisacsh Plasma (Ionized gases) fast Pitaevskiĭ, L. P. (Lev Petrovich), author. https://id.oclc.org/worldcat/entity/E39PBJfMpk4hJBqv78RJP9Vgrq http://id.loc.gov/authorities/names/n83063094 Print version: Lifshit︠s︡, E.M. (Evgeniĭ Mikhaĭlovich). Oxford Butterworth-Heinemann c1981 0750626356 (OCoLC)762003365 Landau, L. D. (Lev Davidovich), 1908-1968. Teoreticheskai︠a︡ fizika. English ; v. 10. http://id.loc.gov/authorities/names/n42015020 FWS01 ZDB-4-EBA FWS_PDA_EBA https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=497328 Volltext FWS01 ZDB-4-EBA FWS_PDA_EBA https://www.sciencedirect.com/science/book/9780080570495 Volltext
spellingShingle	Lifshit︠s︡, E. M. (Evgeniĭ Mikhaĭlovich) Pitaevskiĭ, L. P. (Lev Petrovich) Physical kinetics / Landau, L. D. (Lev Davidovich), 1908-1968. Teoreticheskai︠a︡ fizika. Front Cover; Physical Kinetics; Copyright Page; Table of Contents; PREFACE; NOTATION; CHAPTER I. KINETIC THEORY OF GASES; 1. The distribution function; 2. The principle of detailed balancing; 3. The Boltzmann transport equation; 4. The H theorem; 5. The change to macroscopic equations; 6. The transport equation for a slightly inhomogeneous gas; 7. Thermal conduction in the gas; 8. Viscosity in the gas; 9. Symmetry of the kinetic coefficients; 10. Approximate solution of the transport equation; 11. Diffusion of a light gas in a heavy gas; 12. Diffusion of a heavy gas in a light gas 13. Transport phenomena in a gas in an external field14. Phenomena in slightly rarefied gases; 15. Phenomena in highly rarefied gases; 16. Dynamical derivation of the transport equation; 17. The transport equation including three-particle collisions; 18. The virial expansion of the kinetic coefficients; 19. Fluctuations of the distribution function in an equilibrium gas; 20. Fluctuations of the distribution function in a non-equilibrium gas; CHAPTER II. THE DIFFUSION APPROXIMATION; 21. The Fokker-Planck equation; 22. A weakly ionized gas in an electric field 23. Fluctuations in a weakly ionized non-equilibrium gas24. Recombination and ionization; 25. Ambipolar diffusion; 26. Ion mobility in solutions of strong electrolytes; CHAPTER III. COLLISIONLESS PLASMAS; 27. The self-consistent field; 28. Spatial dispersion in plasmas; 29. The permittivity of a collisionless plasma; 30. Landau damping; 31. Permittivity of a Maxwellian plasma; 32. Longitudinal plasma waves; 33. Ion-sound waves; 34. Relaxation of the initial perturbation; 35. Plasma echoes; 36. Adiabatic electron capture; 37. Quasi-neutral plasmas; 38. Fluid theory for a two-temperature plasma 39. Solitons in a weakly dispersing medium40. Permittivity of a degenerate collisionless plasma; CHAPTER IV. COLLISIONS IN PLASMAS; 41. The Landau collision integral; 42. Energy transfer between electrons and ions; 43. Mean free path of plasma particles; 44. Lorentzian plasmas; 45. Runaway electrons; 46. Convergent collision integrals; 47. Interaction via plasma waves; 48. Plasma absorption in the high-frequency limit; 49. Quasi-linear theory of Landau damping; 50. The transport equation for a relativistic plasma; 51. Fluctuations in plasmas; CHAPTER V. PLASMAS IN MAGNETIC FIELDS 52. Permittivity of a collisionless cold plasma53. The distribution function in a magnetic field; 54. Permittivity of a magnetoactive Maxwellian plasma; 55. Landau damping in magnetoactive plasmas; 56. Electromagnetic waves in a magnetoactive cold plasma; 57. Effect of thermal motion on electromagnetic wave propagation in magnetoactive plasmas; 58. Equations of fluid dynamics in a magnetoactive plasma; 59. Transport coefficients of a plasma in a strong magnetic field; 60. The drift approximation; CHAPTER VI. INSTABILITY THEORY; 61. Beam instability; 62. Absolute and convective instabilities Plasma (Ionized gases) http://id.loc.gov/authorities/subjects/sh85103050 Plasma (Gaz ionisés) SCIENCE Energy. bisacsh SCIENCE Mechanics General. bisacsh SCIENCE Physics General. bisacsh Plasma (Ionized gases) fast
subject_GND	http://id.loc.gov/authorities/subjects/sh85103050
title	Physical kinetics /
title_auth	Physical kinetics /
title_exact_search	Physical kinetics /
title_full	Physical kinetics / by E.M. Lifshitz and L.P. Pitaevskiĭ ; translated from the Russian by J.B. Sykes and R.N. Franklin.
title_fullStr	Physical kinetics / by E.M. Lifshitz and L.P. Pitaevskiĭ ; translated from the Russian by J.B. Sykes and R.N. Franklin.
title_full_unstemmed	Physical kinetics / by E.M. Lifshitz and L.P. Pitaevskiĭ ; translated from the Russian by J.B. Sykes and R.N. Franklin.
title_short	Physical kinetics /
title_sort	physical kinetics
topic	Plasma (Ionized gases) http://id.loc.gov/authorities/subjects/sh85103050 Plasma (Gaz ionisés) SCIENCE Energy. bisacsh SCIENCE Mechanics General. bisacsh SCIENCE Physics General. bisacsh Plasma (Ionized gases) fast
topic_facet	Plasma (Ionized gases) Plasma (Gaz ionisés) SCIENCE Energy. SCIENCE Mechanics General. SCIENCE Physics General.
url	https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=497328 https://www.sciencedirect.com/science/book/9780080570495
work_keys_str_mv	AT lifshitsem physicalkinetics AT pitaevskiilp physicalkinetics

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