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Main Authors: Fu, Lanke, Mitra, E. Litvinova, Nies, R., Reiman, A. H., Austin, M., Bardoczi, L., Brookman, M., Chen, Xi, Choi, W., Fisch, N. J., Hu, Q., Hyatt, A., Jung, E., La Haye, R., Logan, N. C., Maraschek, M., McClenaghan, J. J., Strait, E., Welander, A., Yang, J., team, ASDEX Upgrade
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2410.13717
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author Fu, Lanke
Mitra, E. Litvinova
Nies, R.
Reiman, A. H.
Austin, M.
Bardoczi, L.
Brookman, M.
Chen, Xi
Choi, W.
Fisch, N. J.
Hu, Q.
Hyatt, A.
Jung, E.
La Haye, R.
Logan, N. C.
Maraschek, M.
McClenaghan, J. J.
Strait, E.
Welander, A.
Yang, J.
team, ASDEX Upgrade
author_facet Fu, Lanke
Mitra, E. Litvinova
Nies, R.
Reiman, A. H.
Austin, M.
Bardoczi, L.
Brookman, M.
Chen, Xi
Choi, W.
Fisch, N. J.
Hu, Q.
Hyatt, A.
Jung, E.
La Haye, R.
Logan, N. C.
Maraschek, M.
McClenaghan, J. J.
Strait, E.
Welander, A.
Yang, J.
team, ASDEX Upgrade
contents Theoretical studies have suggested that nonlinear effects can lead to "radio frequency condensation", which coalesces RF power deposition and driven current near the center of a magnetic island. It is predicted that an initially broad current profile can coalesce in islands when they reach sufficient width, providing automatic stabilization. Experimental validation of the theory has thus far been lacking. This paper proposes experiments on DIII-D for testing and refining the theory of the nonlinear effects.
format Preprint
id arxiv_https___arxiv_org_abs_2410_13717
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Designing a Validation Experiment for Radio Frequency Condensation
Fu, Lanke
Mitra, E. Litvinova
Nies, R.
Reiman, A. H.
Austin, M.
Bardoczi, L.
Brookman, M.
Chen, Xi
Choi, W.
Fisch, N. J.
Hu, Q.
Hyatt, A.
Jung, E.
La Haye, R.
Logan, N. C.
Maraschek, M.
McClenaghan, J. J.
Strait, E.
Welander, A.
Yang, J.
team, ASDEX Upgrade
Plasma Physics
Theoretical studies have suggested that nonlinear effects can lead to "radio frequency condensation", which coalesces RF power deposition and driven current near the center of a magnetic island. It is predicted that an initially broad current profile can coalesce in islands when they reach sufficient width, providing automatic stabilization. Experimental validation of the theory has thus far been lacking. This paper proposes experiments on DIII-D for testing and refining the theory of the nonlinear effects.
title Designing a Validation Experiment for Radio Frequency Condensation
topic Plasma Physics
url https://arxiv.org/abs/2410.13717