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Low frequency waves and turbulence in magnetized laboratory plasmas and in the ionosphere
Title statement Low frequency waves and turbulence in magnetized laboratory plasmas and in the ionosphere / Hans P?ecseli. [elektronický zdroj] Publication Bristol [England] (Temple Circus, Temple Way, Bristol BS1 6HG, UK) : IOP Publishing, [2016] Phys.des. 1 online resource (various pagings) : illustrations. ISBN 9780750312516 (online) 9780750312530 mobi Edition [IOP release 3] IOP expanding physics, ISSN 2053-2563 IOP plasma physics series Note "Version: 20161101"--Title page verso. Internal Bibliographies/Indexes Note Includes bibliographical references. Contents Preface -- 1. Introduction Content note part I. Plasma basics -- 2. Basic concepts of the motion of charged particles -- 3. Collisions in magnetized plasmas. part II. Electrostatic fluid models -- 4. The basic model for drift waves -- 5. Simplified linear wave analysis -- 6. Resistive drift waves with cold ions -- 7. Resistive drift waves with warm ions -- 8. Electrostatic drift waves with viscosity due to ion-ion collisions -- 9. Experimental results -- 10. Velocity shear driven instabilities -- 11. Ionospheric conditions -- 12. Inhomogeneous plasma temperatures -- 13. Waves in a gravitational plasma ionosphere. part III. Linear kinetic models -- 14. Kinetic models for electrostatic drift waves. part IV. Linear drift Alfv?en waves -- 15. Electromagnetic modes. part V. Weakly nonlinear waves -- 16. Classifications of turbulence conditions -- 17. Weakly nonlinear waves in homogeneously magnetized plasmas -- 18. Weakly nonlinear electrostatic drift waves. part VI. Randomly varying fields and turbulence -- 19. Elements of statistical analysis -- 20. A reference model -- 21. Random walk and classical diffusion -- 22. Turbulence in two and three spatial dimensions -- 23. Low frequency turbulence in magnetized plasmas -- 24. Turbulence in the ionosphere -- 25. Turbulent diffusion. part VII. Analytical tools in turbulence -- 26. Langevin's model for Brownian motion -- 27. Markov processes -- 28. The quasi-normal approximation -- 29. The direct interaction approximation -- 30. Diagram methods. Appendices. A. List of symbols used in the analysis of electrostatic drift waves -- B. Chemistry of the ionosphere -- C. Collisional cross-sections -- D. Negative temperatures. Notes to Availability Přístup pouze pro oprávněné uživatele Audience Graduate students and researchers in plasma physics. Note Způsob přístupu: World Wide Web.. Požadavky na systém: Adobe Acrobat Reader. Another responsib. Institute of Physics (Great Britain), Subj. Headings Plasma (Ionized gases) * Space plasmas. * Plasma turbulence. * Plasma Physics. * SCIENCE / Physics / General. Form, Genre elektronické knihy electronic books Country Anglie Language angličtina Document kind Electronic books URL Plný text pro studenty a zaměstnance UPOL 
book
Low Frequency Waves and Turbulence in Magnetized Laboratory Plasmas and in the Ionosphere was developed from courses taught by the author at the universities of Oslo and Tromso in Norway. Suitable for undergraduates, graduate students and researchers, the first part of the book is devoted to discussing some relevant plasma instabilities and the free energy that drives them. In the second part, the more advanced topics of nonlinear models and the interactions of many modes are discussed. Theoretical tools available for turbulence modelling are also outlined. The book summarizes a number of studies of low-frequency plasma waves, drift waves in particular, from laboratory and space experiments.
Preface -- 1. Introductionpart I. Plasma basics -- 2. Basic concepts of the motion of charged particles -- 3. Collisions in magnetized plasmaspart II. Electrostatic fluid models -- 4. The basic model for drift waves -- 5. Simplified linear wave analysis -- 6. Resistive drift waves with cold ions -- 7. Resistive drift waves with warm ions -- 8. Electrostatic drift waves with viscosity due to ion-ion collisions -- 9. Experimental results -- 10. Velocity shear driven instabilities -- 11. Ionospheric conditions -- 12. Inhomogeneous plasma temperatures -- 13. Waves in a gravitational plasma ionospherepart III. Linear kinetic models -- 14. Kinetic models for electrostatic drift wavespart IV. Linear drift Alfv?en waves -- 15. Electromagnetic modespart V. Weakly nonlinear waves -- 16. Classifications of turbulence conditions -- 17. Weakly nonlinear waves in homogeneously magnetized plasmas -- 18. Weakly nonlinear electrostatic drift wavespart VI. Randomly varying fields and turbulence -- 19. Elements of statistical analysis -- 20. A reference model -- 21. Random walk and classical diffusion -- 22. Turbulence in two and three spatial dimensions -- 23. Low frequency turbulence in magnetized plasmas -- 24. Turbulence in the ionosphere -- 25. Turbulent diffusionpart VII. Analytical tools in turbulence -- 26. Langevin's model for Brownian motion -- 27. Markov processes -- 28. The quasi-normal approximation -- 29. The direct interaction approximation -- 30. Diagram methodsAppendices. A. List of symbols used in the analysis of electrostatic drift waves -- B. Chemistry of the ionosphere -- C. Collisional cross-sections -- D. Negative temperatures.
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