Hans L Pecseli
Waves and Oscillations in Plasmas
Hans L Pecseli
Waves and Oscillations in Plasmas
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This new edition has been fully updated to address the latest, central issues in modern plasma sciences, working from an introductory to advanced level.
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This new edition has been fully updated to address the latest, central issues in modern plasma sciences, working from an introductory to advanced level.
Produktdetails
- Produktdetails
- Verlag: CRC Press
- 2nd edition
- Seitenzahl: 554
- Erscheinungstermin: 13. Dezember 2021
- Englisch
- Abmessung: 254mm x 178mm x 28mm
- Gewicht: 948g
- ISBN-13: 9781032236421
- ISBN-10: 1032236426
- Artikelnr.: 62952015
- Verlag: CRC Press
- 2nd edition
- Seitenzahl: 554
- Erscheinungstermin: 13. Dezember 2021
- Englisch
- Abmessung: 254mm x 178mm x 28mm
- Gewicht: 948g
- ISBN-13: 9781032236421
- ISBN-10: 1032236426
- Artikelnr.: 62952015
Hans Pécseli is professor emeritus at the plasma-space physics department at the University of Oslo, and also adjoined professor at the University of Tromsø, Norway. He has contributed to the literature on plasma physics, meteorology, and lately also marine biology. He is member of the Royal Danish Academy of Sciences, the Norwegian Academy of Sciences and Letters, and also fellow of the American Physical Society. With a basic education in electrical engineering from the Technical University of Denmark and a PhD from the Risø National Laboratory in Denmark, Professor Pécseli has a background from laboratory experiments in plasma physics, working at the same time also with theoretical problems in this field.
1 Introduction. 2 Basics of Continuum Models. 3 Linear Wave Dynamics. 4
Weakly Nonlinear Waves. 5 Basics of Electromagnetism. 6 Plasmas found in
Nature 7 Single Particle Motion. 8 Basic Plasma Parameters. 9 Experimental
Devices. 10 Magneto-Hydrodynamics by Brute Force.11 Plasma as a Mixture of
Charged Gases. 12 Waves in Cold Plasmas. 13 Electrostatic Waves in Warm
Homogeneous and Isotropic Plasmas. 14 Fluid Models for Nonlinear
Electrostatic Waves: Isotropic Case. 15 Small Amplitude Waves in
Anisotropic Warm Plasmas. 16 Fluid Models for Nonlinear Electrostatic
Waves: Magnetized Case. 17 Linear Drift Waves. 18 Weakly Nonlinear
Electrostatic Drift Waves. 19 Kinetic Plasma Theory. 20 Kinetic Description
of Electron Plasma Waves. 21 Kinetic Plasma Sound Waves. 22 Nonlinear
Kinetic Equilibria. 23 Nonlinear Landau Damping. 24 Quasi-linear Theory
Weakly Nonlinear Waves. 5 Basics of Electromagnetism. 6 Plasmas found in
Nature 7 Single Particle Motion. 8 Basic Plasma Parameters. 9 Experimental
Devices. 10 Magneto-Hydrodynamics by Brute Force.11 Plasma as a Mixture of
Charged Gases. 12 Waves in Cold Plasmas. 13 Electrostatic Waves in Warm
Homogeneous and Isotropic Plasmas. 14 Fluid Models for Nonlinear
Electrostatic Waves: Isotropic Case. 15 Small Amplitude Waves in
Anisotropic Warm Plasmas. 16 Fluid Models for Nonlinear Electrostatic
Waves: Magnetized Case. 17 Linear Drift Waves. 18 Weakly Nonlinear
Electrostatic Drift Waves. 19 Kinetic Plasma Theory. 20 Kinetic Description
of Electron Plasma Waves. 21 Kinetic Plasma Sound Waves. 22 Nonlinear
Kinetic Equilibria. 23 Nonlinear Landau Damping. 24 Quasi-linear Theory
1 Introduction. 2 Basics of Continuum Models. 3 Linear Wave Dynamics. 4
Weakly Nonlinear Waves. 5 Basics of Electromagnetism. 6 Plasmas found in
Nature 7 Single Particle Motion. 8 Basic Plasma Parameters. 9 Experimental
Devices. 10 Magneto-Hydrodynamics by Brute Force.11 Plasma as a Mixture of
Charged Gases. 12 Waves in Cold Plasmas. 13 Electrostatic Waves in Warm
Homogeneous and Isotropic Plasmas. 14 Fluid Models for Nonlinear
Electrostatic Waves: Isotropic Case. 15 Small Amplitude Waves in
Anisotropic Warm Plasmas. 16 Fluid Models for Nonlinear Electrostatic
Waves: Magnetized Case. 17 Linear Drift Waves. 18 Weakly Nonlinear
Electrostatic Drift Waves. 19 Kinetic Plasma Theory. 20 Kinetic Description
of Electron Plasma Waves. 21 Kinetic Plasma Sound Waves. 22 Nonlinear
Kinetic Equilibria. 23 Nonlinear Landau Damping. 24 Quasi-linear Theory
Weakly Nonlinear Waves. 5 Basics of Electromagnetism. 6 Plasmas found in
Nature 7 Single Particle Motion. 8 Basic Plasma Parameters. 9 Experimental
Devices. 10 Magneto-Hydrodynamics by Brute Force.11 Plasma as a Mixture of
Charged Gases. 12 Waves in Cold Plasmas. 13 Electrostatic Waves in Warm
Homogeneous and Isotropic Plasmas. 14 Fluid Models for Nonlinear
Electrostatic Waves: Isotropic Case. 15 Small Amplitude Waves in
Anisotropic Warm Plasmas. 16 Fluid Models for Nonlinear Electrostatic
Waves: Magnetized Case. 17 Linear Drift Waves. 18 Weakly Nonlinear
Electrostatic Drift Waves. 19 Kinetic Plasma Theory. 20 Kinetic Description
of Electron Plasma Waves. 21 Kinetic Plasma Sound Waves. 22 Nonlinear
Kinetic Equilibria. 23 Nonlinear Landau Damping. 24 Quasi-linear Theory