Advanced plasma fluctuation analysis techniques and their impact on fusion research (invited)
1988; American Institute of Physics; Volume: 59; Issue: 8 Linguagem: Inglês
10.1063/1.1140098
ISSN1527-2400
AutoresCh. P. Ritz, E.J. Powers, T. L. Rhodes, Roger D. Bengtson, K. W. Gentle, Hong Lin, P. E. Phillips, A. J. Wootton, D. L. Brower, N. C. Luhmann, W. A. Peebles, P. M. Schoch, R. L. Hickok,
Tópico(s)Laser-induced spectroscopy and plasma
ResumoThis article reviews digital spectral analysis techniques that yield experimental insight into plasma turbulence. Methods to quantify the statistical properties of the fluctuations and to measure the particle and heat flux caused by electrostatic fluctuations are presented. Furthermore, analysis techniques to study the nonlinear coupling process of turbulence and the redistribution of energy among the different modes are discussed. The impact of the analysis techniques on fusion research is demonstrated with experimental results collected with Langmuir probes, heavy-ion beam probes, and laser scattering in the tokamak TEXT. Special emphasis is given to the characterization of the wavenumber distribution and the correlation lengths in all toroidal directions, including a first measurement of k∥ in a tokamak.
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