Margot Marion Yannick Coste-Sarguet
EPFL SB SPC-TH
PPB 211 (Bâtiment PPB)
Station 13
1015 Lausanne
+41 21 693 29 49
Office: PPB 211
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Site web: https://spc.epfl.ch/
Publications
Journal Articles
2024
* Fundamental properties of ideal and resistive infernal modes in tokamaks
Infernal modes are unstable in regions of weak magnetic shear and significant pressure gradients. These modes comprise a broad class of instabilities, encompassing interchange modes and kink modes, with both short and long length scales. Toroidal effects and fully electromagnetic fields are of crucial importance for their description. The role of resistive diffusion and compressibility are also critical. In order to investigate this awkward problem while still enabling fundamental physics interpretation, a new resistive MHD eigensolver has been developed. An outcome of this study is the identification of an unstable spectrum of resistive infernal modes in regions of the plasma with weak average curvature, and in regions where the average curvature is destabilising. These fast growing modes may be collectively important for our understanding of global reconnection events, stochastic magnetic fields states, and neighbouring supercritical bifurcations.
Plasma Physics and Controlled Fusion
2024
DOI : 10.1088/1361-6587/ad5ff2
2022
* Pressure driven long wavelength MHD instabilities in an axisymmetric toroidal resistive plasma
A general set of equations that govern global resistive interchange, resistive internal kink and resistive infernal modes in a toroidal axisymmetric equilibrium are systematically derived in detail. Tractable equations are developed such that resistive effects on the fundamental rational surface can be treated together with resistive effects on the rational surfaces of the sidebands. Resistivity introduces coupling of pressure driven toroidal instabilities with ion acoustic waves, while compression introduces flute-like flows and damping of instabilities, enhanced by toroidal effects. It is shown under which equilibrium conditions global interchange, internal kink modes or infernal modes occur. The m = 1 internal kink is derived for the first time from higher order infernal mode equations, and new resistive infernal modes resonant at the q = 1 surface are reduced analytically. Of particular interest are the competing effects of resistive corrections on the rational surfaces of the fundamental harmonic and on the sidebands, which in this paper is investigated for standard profiles developed for the m = 1 internal kink problem.
Plasma Physics And Controlled Fusion
2022
DOI : 10.1088/1361-6587/ac3496