Microwave beam broadening due to turbulent plasma density fluctuations within the limit of the Born approximation and beyond
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| Title: | Microwave beam broadening due to turbulent plasma density fluctuations within the limit of the Born approximation and beyond |
| Author(s): | Köhn, A. ; Guidi, L. ; Holzhauer, E. ; Maj, O. ; Poli, E. ; Snicker, A. ; Weber, H. |
| Date: | 2018-05-15 |
| Language: | en |
| Pages: | 1-13 |
| Department: | Max-Planck-Institut für Plasmaphysik University of Stuttgart Department of Applied Physics |
| Series: | Plasma Physics and Controlled Fusion, Volume 60, issue 7 |
| ISSN: | 0741-3335 1361-6587 |
| DOI-number: | 10.1088/1361-6587/aac000 |
| Subject: | Nuclear Energy and Engineering, Condensed Matter Physics, 114 Physical sciences |
| Keywords: | density fluctuations, electromagnetic waves, electron cyclotron waves, magnetized plasmas, plasma turbulence, scattering of electromagnetic radiation, simulation, Nuclear Energy and Engineering, Condensed Matter Physics, 114 Physical sciences |
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Köhn , A , Guidi , L , Holzhauer , E , Maj , O , Poli , E , Snicker , A & Weber , H 2018 , ' Microwave beam broadening due to turbulent plasma density fluctuations within the limit of the Born approximation and beyond ' Plasma Physics and Controlled Fusion , vol 60 , no. 7 , 075006 , pp. 1-13 . DOI: 10.1088/1361-6587/aac000 |
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Abstract:Plasma turbulence, and edge density fluctuations in particular, can under certain conditions broaden the cross-section of injected microwave beams significantly. This can be a severe problem for applications relying on well-localized deposition of the microwave power, like the control of MHD instabilities. Here we investigate this broadening mechanism as a function of fluctuation level, background density and propagation length in a fusion-relevant scenario using two numerical codes, the full-wave code IPF-FDMC and the novel wave kinetic equation solver WKBeam. The latter treats the effects of fluctuations using a statistical approach, based on an iterative solution of the scattering problem (Born approximation). The full-wave simulations are used to benchmark this approach. The Born approximation is shown to be valid over a large parameter range, including ITER-relevant scenarios.
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