Phase Contrast Imaging Measurements And Numerical Simulations Of Turbulent Density Fluctuations In Gas-Fuelled Ecrh Discharges In Wendelstein 7-X
JOURNAL OF PLASMA PHYSICS(2021)
摘要
The fundamental nature of turbulent density fluctuations in standard Wendelstein 7-X (W7-X) stellarator discharges is investigated experimentally via phase contrast imaging (PCI) in combination with gyrokinetic simulations with the code GENE. We find that density fluctuations are ion-temperature-gradient-driven and radially localised in the outer half of the plasma. It is shown that the line-integrated PCI measurements cover the right range of wavenumbers and a favourable toroidal and poloidal location to capture some of the strongest density fluctuations in W7-X. Due to the radial localisation of fluctuations, measured wavenumber-frequency spectra exhibit a dominant phase velocity, which can be related to the E X B rotation velocity at the radial position of a well in the neoclassical radial electric field. The match is robust against variations of heating power and line-integrated density, which is partly due to the localisation of fluctuations and partly due to effects of the radial gradient in the E X B velocity profile on the wavenumber-frequency spectrum. The latter effect is studied with a newly built synthetic PCI diagnostic and global gyrokinetic simulations with GENE-3D.
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fusion plasma
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