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Analysis of turbulence in fusion plasmas / Boudewijn Ph. van Milligen, Raul Sanchez.

By: Milligen, B. Ph. van (Boudewijn Ph. van) [author.].
Contributor(s): S�anchez, Ra�ul (Physicist) [author.] | Institute of Physics (Great Britain) [publisher.].
Material type: materialTypeLabelBookSeries: IOP (Series)Release 22: ; IOP series in plasma physics: ; IOP ebooks2022 collection: Publisher: Bristol [England] (Temple Circus, Temple Way, Bristol BS1 6HG, UK) : IOP Publishing, [2022]Description: 1 online resource (various pagings) : illustrations (some color).Content type: text Media type: electronic Carrier type: online resourceISBN: 9780750348560; 9780750348553.Subject(s): Plasma turbulence | Plasma physics | SCIENCE / Physics / Atomic & MolecularAdditional physical formats: Print version:: No titleDDC classification: 530.44 Online resources: Click here to access online Also available in print.
Contents:
1. Introduction -- 1.1. Energy policy options -- 1.2. Fusion -- 1.3. Magnetic confinement -- 1.4. Fusion plasmas : a special class of systems -- 1.5. Transport in fusion plasmas -- 1.6. How important is turbulence? -- 1.7. Unusual transport phenomena -- 1.8. Summary
2. Characterization of turbulence in plasmas -- 2.1. Probability distribution functions and statistical moments -- 2.2. Correlation -- 2.3. Conditional averages -- 2.4. Spectra -- 2.5. Structure detection : the biorthogonal decomposition -- 2.6. Wave interactions : the bicoherence -- 2.7. Summary
3. Complex features of plasma turbulence -- 3.1. Introduction -- 3.2. Self-similarity in random processes -- 3.3. The search for self-similarity in fusion plasmas -- 3.4. Long-term memory in time-series -- 3.5. The search for long-term memory in fusion plasmas -- 3.6. Characterization of self-similarity and memory via event burst sampling -- 3.7. Burst sampling in fusion plasmas -- 3.8. Summary
4. Causality -- 4.1. Antecedents -- 4.2. The quantification of information -- 4.3. The transfer entropy -- 4.4. Tests of the transfer entropy -- 4.5. Unravelling relations between turbulent variables -- 4.6. Understanding radial transport -- 4.7. Modelling -- 4.8. Summary
5. Intermittence -- 5.1. Antecedents -- 5.2. The intermittence parameter -- 5.3. Numerical study of intermittence in a turbulence model -- 5.4. Intermittence in the W7-X stellarator -- 5.5. Intermittence in the TJ-II plasma edge -- 5.6. Intermittence in the TJ-II plasma core -- 5.7. Intermittence and causality during confinement transitions at TJ-II -- 5.8. Intermittence and biasing at TJ-II -- 5.9. Summary
6. Closing -- 6.1. Lessons learned -- 6.2. Implications -- 6.3. Open questions and future perspectives -- Appendix A. Devices -- Appendix B. Resistive MHD turbulence model.
Abstract: This book reviews some of the observations that reveal the complex nature of plasma turbulence in detail and explains their implications.
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"Version: 20221201"--Title page verso.

Includes bibliographical references.

1. Introduction -- 1.1. Energy policy options -- 1.2. Fusion -- 1.3. Magnetic confinement -- 1.4. Fusion plasmas : a special class of systems -- 1.5. Transport in fusion plasmas -- 1.6. How important is turbulence? -- 1.7. Unusual transport phenomena -- 1.8. Summary

2. Characterization of turbulence in plasmas -- 2.1. Probability distribution functions and statistical moments -- 2.2. Correlation -- 2.3. Conditional averages -- 2.4. Spectra -- 2.5. Structure detection : the biorthogonal decomposition -- 2.6. Wave interactions : the bicoherence -- 2.7. Summary

3. Complex features of plasma turbulence -- 3.1. Introduction -- 3.2. Self-similarity in random processes -- 3.3. The search for self-similarity in fusion plasmas -- 3.4. Long-term memory in time-series -- 3.5. The search for long-term memory in fusion plasmas -- 3.6. Characterization of self-similarity and memory via event burst sampling -- 3.7. Burst sampling in fusion plasmas -- 3.8. Summary

4. Causality -- 4.1. Antecedents -- 4.2. The quantification of information -- 4.3. The transfer entropy -- 4.4. Tests of the transfer entropy -- 4.5. Unravelling relations between turbulent variables -- 4.6. Understanding radial transport -- 4.7. Modelling -- 4.8. Summary

5. Intermittence -- 5.1. Antecedents -- 5.2. The intermittence parameter -- 5.3. Numerical study of intermittence in a turbulence model -- 5.4. Intermittence in the W7-X stellarator -- 5.5. Intermittence in the TJ-II plasma edge -- 5.6. Intermittence in the TJ-II plasma core -- 5.7. Intermittence and causality during confinement transitions at TJ-II -- 5.8. Intermittence and biasing at TJ-II -- 5.9. Summary

6. Closing -- 6.1. Lessons learned -- 6.2. Implications -- 6.3. Open questions and future perspectives -- Appendix A. Devices -- Appendix B. Resistive MHD turbulence model.

This book reviews some of the observations that reveal the complex nature of plasma turbulence in detail and explains their implications.

PhD students and researchers in the field of plasma physics (turbulence and transport).

Also available in print.

Mode of access: World Wide Web.

System requirements: Adobe Acrobat Reader, EPUB reader, or Kindle reader.

Boudewijn van Milligen is a senior researcher at the National Fusion Laboratory, Spain. Raul Sanchez is a full professor of Physics at the Universidad Carlos III de Madrid, Spain.

Title from PDF title page (viewed on January 9, 2023).

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