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Plasma Physics

An Introduction to Laboratory, Space, and Fusion Plasmas

  • Textbook
  • © 2010

Overview

Authors:
  1. Alexander Piel

    1. Inst. Experimentelle und, Angewandte Physik, Universität Kiel, Kiel, Germany

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  • Different from most introductory texts, modern fields of plasma physics, such as low-temperature plasmas, plasma discharges and plasma diagnostics are covered
  • Emphasis on experimental point of view and laboratory applications
  • Gives introduction to forefront research on complex plasmas, like non-neutral or dusty plasmas
  • Includes supplementary material: sn.pub/extras

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Table of contents (11 chapters)

  1. Front Matter

    Pages i-xviii
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  2. Introduction

    • Alexander Piel
    Pages 1-27

  3. Definition of the Plasma State

    • Alexander Piel
    Pages 29-43

  4. Single Particle Motion in Electric and Magnetic Fields

    • Alexander Piel
    Pages 45-71

  5. Stochastic Processes in a Plasma

    • Alexander Piel
    Pages 73-106

  6. Fluid Models

    • Alexander Piel
    Pages 107-131

  7. Plasma Waves

    • Alexander Piel
    Pages 133-167

  8. Plasma Boundaries

    • Alexander Piel
    Pages 169-195

  9. Instabilities

    • Alexander Piel
    Pages 197-218

  10. Kinetic Description of Plasmas

    • Alexander Piel
    Pages 219-257

  11. Dusty Plasmas

    • Alexander Piel
    Pages 259-321

  12. Plasma Generation

    • Alexander Piel
    Pages 323-350

  13. Back Matter

    Pages 351-398
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Keywords

About this book

This book is an outgrowth of courses in plasma physics which I have taught at Kiel University for many years. During this time I have tried to convince my students that plasmas as different as gas dicharges, fusion plasmas and space plasmas can be described in a uni ed way by simple models. The challenge in teaching plasma physics is its apparent complexity. The wealth of plasma phenomena found in so diverse elds makes it quite different from atomic physics, where atomic structure, spectral lines and chemical binding can all be derived from a single equation—the Schrödinger equation. I positively accept the variety of plasmas and refrain from subdividing plasma physics into the traditional, but arti cially separated elds, of hot, cold and space plasmas. This is why I like to confront my students, and the readers of this book, with examples from so many elds. By this approach, I believe, they will be able to become discoverers who can see the commonality between a falling apple and planetary motion. As an experimentalist, I am convinced that plasma physics can be best understood from a bottom-up approach with many illustrating examples that give the students con dence in their understanding of plasma processes. The theoretical framework of plasma physics can then be introduced in several steps of re nement. In the end, the student (or reader) will see that there is something like the Schrödinger equation, namely the Vlasov-Maxwell model of plasmas, from which nearly all phenomena in collisionless plasmas can be derived.

Reviews

From the reviews:

“Plasma Physics offers a broad and modern introduction to the many aspects of plasma science … . A curious student or interested researcher could track down laboratory notes, older monographs, and obscure papers … . with an extensive list of more than 300 references and, in particular, its excellent overview of the various techniques to generate plasma in a laboratory, Plasma Physics is an excellent entree for students into this rapidly growing field. It’s also a useful reference for professional low-temperature plasma researchers.” (Michael Brown, Physics Today, June, 2011)

Authors and Affiliations

  • Inst. Experimentelle und, Angewandte Physik, Universität Kiel, Kiel, Germany

    Alexander Piel

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