The magnetic confinement of fusion plasmas is sought in various configurations. One of them is thereversed-field pinch which is characterized by the emergence of self-organized quasi-helical statesboth in high current experiments and in magnetohydrodynamic (MHD) simulations. Thesesimulations reproduce such states very well together with their quasi-periodic relaxation to 3Dstates involving a domain of chaotic magnetic field lines.This work presents the characterization of the transport-related properties of these 3D states.Lagrangian Coherent Structures in the chaotic domain are revealed by the Finite Time LyapunovExponent (FTLE) method as ridges of the FTLE field: ridges are defined as special lines whosepoints are locally at the highest point in the FTLE field transverse to the ridge. They are diagnosedto represent strong barriers for the magnetic field lines, which are effectively limited in their motioninside the chaotic sea. Quantitative information can be obtained by the analysis of the magneticfield line diffusion coefficient in a stochastic field using the NEMATO code for magnetic field linestracing. This allows the optimization of low-transport helical states in the reversed-field pinch.

Transport characterization in chaotic magnetic fields through Lagrangian Coherent Structures

Veranda M.;Bonfiglio D.;Borgogno D.;Cappello S.;Grasso D.;Rubino G.
2015

Abstract

The magnetic confinement of fusion plasmas is sought in various configurations. One of them is thereversed-field pinch which is characterized by the emergence of self-organized quasi-helical statesboth in high current experiments and in magnetohydrodynamic (MHD) simulations. Thesesimulations reproduce such states very well together with their quasi-periodic relaxation to 3Dstates involving a domain of chaotic magnetic field lines.This work presents the characterization of the transport-related properties of these 3D states.Lagrangian Coherent Structures in the chaotic domain are revealed by the Finite Time LyapunovExponent (FTLE) method as ridges of the FTLE field: ridges are defined as special lines whosepoints are locally at the highest point in the FTLE field transverse to the ridge. They are diagnosedto represent strong barriers for the magnetic field lines, which are effectively limited in their motioninside the chaotic sea. Quantitative information can be obtained by the analysis of the magneticfield line diffusion coefficient in a stochastic field using the NEMATO code for magnetic field linestracing. This allows the optimization of low-transport helical states in the reversed-field pinch.
2015
Istituto gas ionizzati - IGI - Sede Padova
Istituto dei Sistemi Complessi - ISC
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/20.500.14243/307812
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