Evidence for the importance of trapped particle resonances for resistive wall mode stability in high beta tokamak plasmas

H. Reimerdes; J. W. Berkery; M. J. Lanctot; A. M. Garofalo; J. M. Hanson; Y. In; M. Okabayashi; S. A. Sabbagh; E. J. Strait

doi:10.1103/PhysRevLett.106.215002

Evidence for the importance of trapped particle resonances for resistive wall mode stability in high beta tokamak plasmas

H. Reimerdes, J. W. Berkery, M. J. Lanctot, A. M. Garofalo, J. M. Hanson, Y. In, M. Okabayashi, S. A. Sabbagh, E. J. Strait

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52 Scopus citations

Abstract

Active measurements of the plasma stability in tokamak plasmas reveal the importance of kinetic resonances for resistive wall mode stability. The rotation dependence of the magnetic plasma response to externally applied quasistatic n=1 magnetic fields clearly shows the signatures of an interaction between the resistive wall mode and the precession and bounce motions of trapped thermal ions, as predicted by a perturbative model of plasma stability including kinetic effects. The identification of the stabilization mechanism is an essential step towards quantitative predictions for the prospects of "passive" resistive wall mode stabilization, i.e., without the use of an "active" feedback system, in fusion-alpha heated plasmas.

Original language	English (US)
Article number	215002
Journal	Physical review letters
Volume	106
Issue number	21
DOIs	https://doi.org/10.1103/PhysRevLett.106.215002
State	Published - May 23 2011
Externally published	Yes

All Science Journal Classification (ASJC) codes

General Physics and Astronomy

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10.1103/PhysRevLett.106.215002

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title = "Evidence for the importance of trapped particle resonances for resistive wall mode stability in high beta tokamak plasmas",

abstract = "Active measurements of the plasma stability in tokamak plasmas reveal the importance of kinetic resonances for resistive wall mode stability. The rotation dependence of the magnetic plasma response to externally applied quasistatic n=1 magnetic fields clearly shows the signatures of an interaction between the resistive wall mode and the precession and bounce motions of trapped thermal ions, as predicted by a perturbative model of plasma stability including kinetic effects. The identification of the stabilization mechanism is an essential step towards quantitative predictions for the prospects of {"}passive{"} resistive wall mode stabilization, i.e., without the use of an {"}active{"} feedback system, in fusion-alpha heated plasmas.",

author = "H. Reimerdes and Berkery, \{J. W.\} and Lanctot, \{M. J.\} and Garofalo, \{A. M.\} and Hanson, \{J. M.\} and Y. In and M. Okabayashi and Sabbagh, \{S. A.\} and Strait, \{E. J.\}",

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doi = "10.1103/PhysRevLett.106.215002",

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T1 - Evidence for the importance of trapped particle resonances for resistive wall mode stability in high beta tokamak plasmas

AU - Reimerdes, H.

AU - Berkery, J. W.

AU - Lanctot, M. J.

AU - Garofalo, A. M.

AU - Hanson, J. M.

AU - In, Y.

AU - Okabayashi, M.

AU - Sabbagh, S. A.

AU - Strait, E. J.

PY - 2011/5/23

Y1 - 2011/5/23

N2 - Active measurements of the plasma stability in tokamak plasmas reveal the importance of kinetic resonances for resistive wall mode stability. The rotation dependence of the magnetic plasma response to externally applied quasistatic n=1 magnetic fields clearly shows the signatures of an interaction between the resistive wall mode and the precession and bounce motions of trapped thermal ions, as predicted by a perturbative model of plasma stability including kinetic effects. The identification of the stabilization mechanism is an essential step towards quantitative predictions for the prospects of "passive" resistive wall mode stabilization, i.e., without the use of an "active" feedback system, in fusion-alpha heated plasmas.

AB - Active measurements of the plasma stability in tokamak plasmas reveal the importance of kinetic resonances for resistive wall mode stability. The rotation dependence of the magnetic plasma response to externally applied quasistatic n=1 magnetic fields clearly shows the signatures of an interaction between the resistive wall mode and the precession and bounce motions of trapped thermal ions, as predicted by a perturbative model of plasma stability including kinetic effects. The identification of the stabilization mechanism is an essential step towards quantitative predictions for the prospects of "passive" resistive wall mode stabilization, i.e., without the use of an "active" feedback system, in fusion-alpha heated plasmas.

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DO - 10.1103/PhysRevLett.106.215002

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Evidence for the importance of trapped particle resonances for resistive wall mode stability in high beta tokamak plasmas

Abstract

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