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The Dynamics of Electrons in Linear Plasma Devices and Its Impact on Plasma Surface Interaction

  • Book
  • © 2019

Overview

Authors:
  1. Michael Hubeny

    1. Institute for Climate and Energy Research—Plasma Physics, Research Center Jülich GmbH, Jülich, Germany

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  • Nominated as an outstanding PhD thesis by the Research Center Jülich, Germany
  • Versatile thomson scattering implementation with variable exposure time
  • Extraction of arbitrary, not a priori known plasma oscillations or structures

Part of the book series: Springer Theses (Springer Theses)

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Table of contents (9 chapters)

  1. Front Matter

    Pages i-xiv
    Download chapter PDF

  2. Introduction

    • Michael Hubeny
    Pages 1-8

  3. Plasma Wall Transition Dynamics

    • Michael Hubeny
    Pages 9-21

  4. Laser Light Scattering as Plasma Diagnostic

    • Michael Hubeny
    Pages 23-32

  5. Experimental Setup on PSI-2

    • Michael Hubeny
    Pages 33-40

  6. Thomson Scattering Setup

    • Michael Hubeny
    Pages 41-52

  7. Data Analysis and Calibration

    • Michael Hubeny
    Pages 53-70

  8. Steady State Plasma Results

    • Michael Hubeny
    Pages 71-84

  9. Plasma Turbulence Results

    • Michael Hubeny
    Pages 85-117

  10. Summary and Conclusion

    • Michael Hubeny
    Pages 119-123

  11. Back Matter

    Pages 125-126
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Keywords

About this book

Turbulence in plasma surface interaction holds crucial uncertainties for its impact on material erosion in the operation of fusion reactors. In this thesis, the design, development and operation of a Thomson scattering diagnostic and its novel implementation with fast visual imaging created a versatile tool to investigate intermittently occuring plasma oscillations. Specifically, ballistic transport events in the plasma edge, constituting turbulent transport, have been targeted in this thesis. With the help of a custom photon counting algorithm, the conditional averaging technique was applied on Thomson scattering for the first time to allow spatial and pseudo-time-resolved measurements.


Since plasma turbulence and the emerging transport phenomena are comparable in most magnetized devices, the diagnostic development and the results from the linear plasma device PSI-2 are useful for an implementation of similar techniques in larger fusion experiments. Furthermore, the obtained results indicate a strong enhancement of erosion with turbulent transport and thus underline the importance of dedicated experiments investigating plasma turbulence in the framework of erosion in future fusion reactors.

Authors and Affiliations

  • Institute for Climate and Energy Research—Plasma Physics, Research Center Jülich GmbH, Jülich, Germany

    Michael Hubeny

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