Observation of magnetic islands in tokamak plasmas during the suppression of edge-localized modes

The ASDEX Upgrade Team

doi:10.1038/s41567-024-02666-y

Observation of magnetic islands in tokamak plasmas during the suppression of edge-localized modes

The ASDEX Upgrade Team

Laboratory for Plasma Physics

Max-Planck-Institut für Plasmaphysik
Oak Ridge National Laboratory
Columbia University
ITER
Technische Universität München
Centre for Energy Research
Chinese Academy of Sciences
Institute of Plasma Physics and Laser Microfusion
MIT Plasma Science and Fusion Center
Culham Centre for Fusion Energy
University of Seville
Instituto Superior Técnico
Consorzio Rfx
University of Ghent
Technical University of Denmark
KARLSRUHER INSTITUT FUER TECHNOLOGIE
General Atomics
KTH Royal Institute of Technology
Istituto di Fisica del Plasma Piero Caldirola
VTT Technical Research Centre of Finland
Ecole Polytechnique Federale de Lausanne
Laboratorio Nacional de Fusión
Aalto University
University of Cagliari
Ioffe Physical-Technical Institute of the Russian Academy of Sciences
Universitat Innsbruck
University of Wisconsin-Madison
Eindhoven University of Technology
ENEA Centro Ricerche Frascati
FORSCHUNGSZENTRUM JULICH GMBH
University of Tuscia
University of Stuttgart
Vienna University of Technology
Budapest University of Technology and Economics
University of Rome Tor Vergata
University of Milano-Bicocca
Princeton Plasma Physics Laboratory
Politecnico di Torino
UNIVERSITY COLLEGE CORK, NATIONAL UNIVERSITY OF IRELAND, CORK
Greifswald University
Barcelona Supercomputer Centre
ICREA
University of California, Davis
University of York
Institute of Plasma Physics, Academy of Sciences of the Czech Republic
Technische Universität Graz
Commissariat à l'Énergie Atomique (CEA)
Chalmers University of Technology
Institut Jean Lamour
Ecole Polytechnique
Durham University
CFS
National Science Center Kharkiv Institute of Physics and Technology
Consorzio CREATE
Université Aix Marseille
Research Center

Résultats de recherche: Contribution à un journal › Article › Revue par des pairs

13 Citations (Scopus)

Résumé

In tokamaks, a leading platform for fusion energy, periodic filamentary plasma eruptions known as edge-localized modes occur in plasmas with high-energy confinement and steep pressure profiles at the plasma edge. These edge-localized modes could damage the tokamak wall but can be suppressed using small three-dimensional magnetic perturbations. Here we demonstrate that these magnetic perturbations can change the magnetic topology just inside the steep gradient region of the plasma edge. We identify signatures of a magnetic island, and their observation is linked to the suppression of edge-localized modes. We compare high-resolution measurements of perturbed magnetic surfaces with predictions from ideal magnetohydrodynamic theory where the magnetic topology is preserved. Although ideal magnetohydrodynamics adequately describes the measurements in plasmas exhibiting edge-localized modes, it proves insufficient for plasmas where these modes are suppressed. Nonlinear resistive magnetohydrodynamic modelling supports this observation. Our study experimentally confirms the predicted role of magnetic islands in inhibiting the occurrence of edge-localized modes. This will be beneficial for physics-based predictions in future fusion devices to control these modes.

langue originale	Anglais
Pages (de - à)	1980-1988
Nombre de pages	9
journal	Nature Physics
Volume	20
Numéro de publication	12
Les DOIs	https://doi.org/10.1038/s41567-024-02666-y
état	Publié - déc. 2024

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@article{aac0b3d1c4e943a4b6edd92fe4a9b2dc,

title = "Observation of magnetic islands in tokamak plasmas during the suppression of edge-localized modes",

abstract = "In tokamaks, a leading platform for fusion energy, periodic filamentary plasma eruptions known as edge-localized modes occur in plasmas with high-energy confinement and steep pressure profiles at the plasma edge. These edge-localized modes could damage the tokamak wall but can be suppressed using small three-dimensional magnetic perturbations. Here we demonstrate that these magnetic perturbations can change the magnetic topology just inside the steep gradient region of the plasma edge. We identify signatures of a magnetic island, and their observation is linked to the suppression of edge-localized modes. We compare high-resolution measurements of perturbed magnetic surfaces with predictions from ideal magnetohydrodynamic theory where the magnetic topology is preserved. Although ideal magnetohydrodynamics adequately describes the measurements in plasmas exhibiting edge-localized modes, it proves insufficient for plasmas where these modes are suppressed. Nonlinear resistive magnetohydrodynamic modelling supports this observation. Our study experimentally confirms the predicted role of magnetic islands in inhibiting the occurrence of edge-localized modes. This will be beneficial for physics-based predictions in future fusion devices to control these modes.",

author = "Matthias Willensdorfer and Verena Mitterauer and Matthias Hoelzl and Wolfgang Suttrop and Mark Cianciosa and Mike Dunne and Rainer Fischer and Nils Leuthold and Jonas Puchmayr and Oleg Samoylov and \{Su{\'a}rez L{\'o}pez\}, Guillermo and Daniel Wendler and S. Zoletnik and H. Zohm and A. Zito and B. Zimmermann and M. Zilker and W. Zholobenko and W. Zhang and T. Zehetbauer and I. Zammuto and R. Zagorski and Q. Yu and C. Yoo and Q. Yang and E. Wolfrum and R. Wolf and M. Wischmeier and B. Wiringer and M. Willensdorfer and White, \{A. E.\} and D. Wendler and M. Weiland and X. Wang and D. Wagner and \{von Toussaint\}, U. and I. Voitsekhovitch and G. Vogel and E. Viezzer and T. Vierle and J. Vicente and N. Vianello and G. Verdoolaege and T. Verdier and M. Tripsk{\'y} and V. Maquet and A. Lyssoivan and E. Lerche and Y. Kazakov and S. Jachmich and \{The ASDEX Upgrade Team\}",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2024.",

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doi = "10.1038/s41567-024-02666-y",

language = "English",

volume = "20",

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T1 - Observation of magnetic islands in tokamak plasmas during the suppression of edge-localized modes

AU - Willensdorfer, Matthias

AU - Mitterauer, Verena

AU - Hoelzl, Matthias

AU - Suttrop, Wolfgang

AU - Cianciosa, Mark

AU - Dunne, Mike

AU - Fischer, Rainer

AU - Leuthold, Nils

AU - Puchmayr, Jonas

AU - Samoylov, Oleg

AU - Suárez López, Guillermo

AU - Wendler, Daniel

AU - Zoletnik, S.

AU - Zohm, H.

AU - Zito, A.

AU - Zimmermann, B.

AU - Zilker, M.

AU - Zholobenko, W.

AU - Zhang, W.

AU - Zehetbauer, T.

AU - Zammuto, I.

AU - Zagorski, R.

AU - Yu, Q.

AU - Yoo, C.

AU - Yang, Q.

AU - Wolfrum, E.

AU - Wolf, R.

AU - Wischmeier, M.

AU - Wiringer, B.

AU - Willensdorfer, M.

AU - White, A. E.

AU - Wendler, D.

AU - Weiland, M.

AU - Wang, X.

AU - Wagner, D.

AU - von Toussaint, U.

AU - Voitsekhovitch, I.

AU - Vogel, G.

AU - Viezzer, E.

AU - Vierle, T.

AU - Vicente, J.

AU - Vianello, N.

AU - Verdoolaege, G.

AU - Verdier, T.

AU - Tripský, M.

AU - Maquet, V.

AU - Lyssoivan, A.

AU - Lerche, E.

AU - Kazakov, Y.

AU - Jachmich, S.

AU - The ASDEX Upgrade Team

PY - 2024/12

Y1 - 2024/12

N2 - In tokamaks, a leading platform for fusion energy, periodic filamentary plasma eruptions known as edge-localized modes occur in plasmas with high-energy confinement and steep pressure profiles at the plasma edge. These edge-localized modes could damage the tokamak wall but can be suppressed using small three-dimensional magnetic perturbations. Here we demonstrate that these magnetic perturbations can change the magnetic topology just inside the steep gradient region of the plasma edge. We identify signatures of a magnetic island, and their observation is linked to the suppression of edge-localized modes. We compare high-resolution measurements of perturbed magnetic surfaces with predictions from ideal magnetohydrodynamic theory where the magnetic topology is preserved. Although ideal magnetohydrodynamics adequately describes the measurements in plasmas exhibiting edge-localized modes, it proves insufficient for plasmas where these modes are suppressed. Nonlinear resistive magnetohydrodynamic modelling supports this observation. Our study experimentally confirms the predicted role of magnetic islands in inhibiting the occurrence of edge-localized modes. This will be beneficial for physics-based predictions in future fusion devices to control these modes.

AB - In tokamaks, a leading platform for fusion energy, periodic filamentary plasma eruptions known as edge-localized modes occur in plasmas with high-energy confinement and steep pressure profiles at the plasma edge. These edge-localized modes could damage the tokamak wall but can be suppressed using small three-dimensional magnetic perturbations. Here we demonstrate that these magnetic perturbations can change the magnetic topology just inside the steep gradient region of the plasma edge. We identify signatures of a magnetic island, and their observation is linked to the suppression of edge-localized modes. We compare high-resolution measurements of perturbed magnetic surfaces with predictions from ideal magnetohydrodynamic theory where the magnetic topology is preserved. Although ideal magnetohydrodynamics adequately describes the measurements in plasmas exhibiting edge-localized modes, it proves insufficient for plasmas where these modes are suppressed. Nonlinear resistive magnetohydrodynamic modelling supports this observation. Our study experimentally confirms the predicted role of magnetic islands in inhibiting the occurrence of edge-localized modes. This will be beneficial for physics-based predictions in future fusion devices to control these modes.

UR - https://www.scopus.com/pages/publications/85207382514

U2 - 10.1038/s41567-024-02666-y

DO - 10.1038/s41567-024-02666-y

M3 - Article

AN - SCOPUS:85207382514

SN - 1745-2473

VL - 20

SP - 1980

EP - 1988

JO - Nature Physics

JF - Nature Physics

IS - 12

ER -

Observation of magnetic islands in tokamak plasmas during the suppression of edge-localized modes

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