Magnetic field lines embedded in a plasma confinement system are often characterizedby a chaotic motion, that can lead to the degradation of the confinementproperties of the system. However, even in case of chaotic domains, magnetic barrierscan emerge and limit the field line motion itself.Recently a fluid dynamical approach for the detection of these barriers hase been developed[1, 2]. The method relies on the behavior of the Finte Time LyapunovExponent (FTLE) field, associated to the magnetic configuration. This FTLE fieldshows the presence of ridges, that can be recognized as Lagrangian Coherent Structures(LCSs) for the magnetic field, and act as barriers for the transport of magneticfield lines across them.Here we provide the first application of this method to a real magnetic configuration[3]. We consider the magnetic field characterizing the emergence of self-organizedquasi-helical states [4], predicted by magnetohydrodynamic (MHD) simulations [5]and observed in high current experiments in the reversed field pinch configurations.We show that the LCSs we find actually limit the field lines motion and provide achaos healing effect, by influencing the transport properties of the system.
Transport processes in chaotic magnetic field configuration: the Quasi-Single-Helicity states in RFX-mod
Grasso D.;Bonfiglio D.;Cappello S.;Rubino G.;Veranda M.
2015
Abstract
Magnetic field lines embedded in a plasma confinement system are often characterizedby a chaotic motion, that can lead to the degradation of the confinementproperties of the system. However, even in case of chaotic domains, magnetic barrierscan emerge and limit the field line motion itself.Recently a fluid dynamical approach for the detection of these barriers hase been developed[1, 2]. The method relies on the behavior of the Finte Time LyapunovExponent (FTLE) field, associated to the magnetic configuration. This FTLE fieldshows the presence of ridges, that can be recognized as Lagrangian Coherent Structures(LCSs) for the magnetic field, and act as barriers for the transport of magneticfield lines across them.Here we provide the first application of this method to a real magnetic configuration[3]. We consider the magnetic field characterizing the emergence of self-organizedquasi-helical states [4], predicted by magnetohydrodynamic (MHD) simulations [5]and observed in high current experiments in the reversed field pinch configurations.We show that the LCSs we find actually limit the field lines motion and provide achaos healing effect, by influencing the transport properties of the system.File | Dimensione | Formato | |
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