Active Control of Alfvén Eigenmodes by Externally Applied 3D Magnetic Perturbations

Authors :: GONZALEZ-MARTIN, Javier
GARCIA-MUNOZ, Manuel
GALDON-QUIROGA, Joaquin
TODO, Yasushi
DOMINGUEZ-PALACIOS, Jesus
DUNNE, M.
VAN VUUREN, A. Jansen
LIU, Yueqiang
SANCHIS, L.
SPONG, Donald A.
SUTTROP, W.
WANG, X.
WILLENSDORFER, Matthias
GONZALEZ-MARTIN, Javier
GARCIA-MUNOZ, Manuel
GALDON-QUIROGA, Joaquin
TODO, Yasushi
DOMINGUEZ-PALACIOS, Jesus
DUNNE, M.
VAN VUUREN, A. Jansen
LIU, Yueqiang
SANCHIS, L.
SPONG, Donald A.
SUTTROP, W.
WANG, X.
WILLENSDORFER, Matthias
Publication Year :: 2023
Abstract: The suppression and excitation of Alfvén eigenmodes have been experimentally obtained, for the first time, by means of externally applied 3D perturbative fields with different spatial spectra in a tokamak plasma. The applied perturbation causes an internal fast-ion redistribution that modifies the phase-space gradients responsible for driving the modes, determining, ultimately their existence. Hybrid kinetic-magnetohydrodynamic simulations reveal an edge resonant transport layer activated by the 3D perturbative field as the responsible mechanism for the fast-ion redistribution. The results presented here may help to control fast-ion driven Alfvénic instabilities in future burning plasmas with a significant fusion born alpha particle population.<br />source:Phys. Rev. Lett. 130, 035101<br />source:https://doi.org/10.1103/PhysRevLett.130.035101<br />identifier:0000-0002-3237-5195

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