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Paper detail

On the interplay between turbulent forces and neoclassical particle losses in Zonal Flow dynamics

This study presents the investigation of the connection between radial electric field, gradient of Reynolds stress and Long Range Correlation (LRC), as a proxy for Zonal Flows (ZF), in different plasma scenarios in the TJ-II stellarator. Monte Carlo simulations were made showing that radial electric fields in the range of those experimentally measured have an effect on the neoclassical orbit losses. The results indicate that, despite the order of magnitude of turbulent acceleration is comparable to the neoclassical damping of perpendicular flows, its dependence with radial electric field is not correlated with the evolution of LRC amplitude, indicating that turbulent acceleration alone cannot explain the dynamics of Zonal Flows. These results are in line with the expectation that the interplay between turbulent and neoclassical mechanisms is a crucial ingredient of the dynamics of edge Zonal Flows.

preprint2019arXivOpen access
R. GerrúS. MulasU. LosadaF. CastejónB. LiuT. EstradaB Ph van MilligenC. Hidalgo
physics.plasm-ph
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R. GerrúS. MulasU. LosadaF. CastejónB. LiuT. EstradaB Ph van MilligenC. Hidalgo

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