4.6 Article

Study of fast-ion-driven toroidal Alfvén eigenmodes impacting on the global confinement in TCV L-mode plasmas

Journal

FRONTIERS IN PHYSICS
Volume 11, Issue -, Pages -

Publisher

FRONTIERS MEDIA SA
DOI: 10.3389/fphy.2023.1225787

Keywords

toroidal Alfven eigenmode; tokamak a configuration variable (TCV); fast ions; confinement; gyrokinetic simulations

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An in-depth analysis of the impact of unstable Toroidal Alfven Eigenmodes (TAEs) on global confinement and performance is conducted in a counter-current Neutral Beam Injection (NBI) scenario developed in TCV. Experimental evidence shows that ion thermal confinement does not degrade despite an increase in auxiliary power. TAEs driven by fast ions generated through NBI are found to be unstable during this improved confinement period. Various instabilities associated with the injection of fast neutrals are observed, and the study provides a first characterization of these instabilities. Nonlinear wave-wave couplings and the radial localization of the instabilities are also detected through multi-mode analysis and reflectometer measurements.
Following recent observations of unstable Toroidal Alfven Eigenmodes (TAEs) in a counter-current Neutral Beam Injection (NBI) scenario developed in TCV, an in-depth analysis of the impact of such modes on the global confinement and performance is carried out. The study shows experimental evidence of non-degradation of ion thermal confinement despite the increasing of auxiliary power. During such an improved confinement period, Toroidal Alfven Eigenmodes (TAEs) driven by fast ions generated through Neutral Beam Injection (NBI) are found unstable. Together with the TAEs, various instabilities associated with the injection of the fast neutrals are observed by multiple diagnostics, and a first characterization is given. Nonlinear wave-wave couplings are also detected through multi-mode analysis, revealing a complex picture of the stability dynamics of the TCV scenario at hand. The measurements provided by a short-pulse reflectometer corroborate the identification and radial localization of the instabilities. A preliminary, but not conclusive, analysis of the impact of TAEs on the amplitude of the electron density fluctuations is carried out. Local flux-tube gyrokinetic simulations show that the dominant underlying instabilities in the absence of fast ions are Trapped Electron Modes (TEM), and that these modes are effectively suppressed by zonal flows. Attempts to simulate the simultaneous presence of fast-ion driven TAEs and TEM turbulence show that elongated streamers develop up to the full radial extent of the flux-tube domain, thereby invalidating the local assumption and indicating that a global approach is mandatory in these TCV plasmas.

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