Multi-scale interactions between turbulence and magnetohydrodynamic instability driven by energetic particles

In order to realize high performance burning plasmas in magnetic-confinement fusion devices, such as tokamaks, both bulk plasma transport and that of energetic fusion alpha-particles, which result from different scale fluctuations with different free energy sources, have to be reduced simultaneously...

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Veröffentlicht in:	Nuclear fusion 2021-11, Vol.61 (11), p.114002
Hauptverfasser:	Ishizawa, A., Imadera, K., Nakamura, Y., Kishimoto, Y.
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Sprache:	eng
Schlagworte:	energetic particles gyrokinetic simulation magneto-hydrodynamic tokamak turbulent transport
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container_title	Nuclear fusion
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creator	Ishizawa, A. Imadera, K. Nakamura, Y. Kishimoto, Y.
description	In order to realize high performance burning plasmas in magnetic-confinement fusion devices, such as tokamaks, both bulk plasma transport and that of energetic fusion alpha-particles, which result from different scale fluctuations with different free energy sources, have to be reduced simultaneously. Utilizing the advantage of global toroidal non-linear simulations covering a whole torus, here, we found a new coupling mechanism between the low-frequency micro-scale electromagnetic drift-wave fluctuations regulating the former, while the high-frequency macro-scale toroidal Alfven eigenmode (TAE) regulates the latter. This results from the dual spread of micro-scale turbulence due to the macro-scale TAE not only in wavenumber space representing local eddy size but also in configuration space with global profile variations. Consequently, a new class of turbulent state is found to be established, where the turbulence is homogenized on the poloidal cross-section with exhibiting large-scale structure, which increases fluctuation levels and then both transports, leading to deterioration in the fusion performance.
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title	Multi-scale interactions between turbulence and magnetohydrodynamic instability driven by energetic particles
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