Role of the stabilizing shell in high-β, low-q disruptions in PBX-M

M. Okabayashi; N. Pomphrey; J. Manickam; D. J. Ward; R. E. Bell; R. E. Hatcher; R. Kaita; S. M. Kaye; H. W. Kugel; B. LeBlanc; F. M. Levinton; D. W. Roberts; S. Sesnic; Y. Sun; H. Takahashi

doi:10.1088/0029-5515/36/9/I06

Role of the stabilizing shell in high-β, low-q disruptions in PBX-M

M. Okabayashi, N. Pomphrey, J. Manickam, D. J. Ward, R. E. Bell, R. E. Hatcher, R. Kaita, S. M. Kaye, H. W. Kugel, B. LeBlanc, F. M. Levinton, D. W. Roberts, S. Sesnic, Y. Sun, H. Takahashi

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Abstract

The characteristics of high-β, low-q disruptions have been studied in PBX-M, a device with a nearby conducting shell. The coupling between the wall and the plasma was varied by choosing different plasma shapes, including nearly circular plasmas, D-shaped plasmas and bean-shaped plasmas (indented on the midplane), and by increasing the effective coverage of the plasma by the shell. Disruption precursors were observed to have a strong dependence on the coupling between the plasma and the shell. Measured mode growth times vary from between several times the Alfvén time-scale (∼100 μs) to the L/R time-scale of the wall (∼20 ms). The behaviour of observed disruption precursors is interpreted in terms of the resistive wall mode theory of ideal plasmas, and a detailed calculation of the stability of a strongly coupled bean configuration using the NOVA-W linear stability code is presented. The experimental observations are in good agreement with the theoretical predictions.

Original language	English (US)
Pages (from-to)	1167-1188
Number of pages	22
Journal	Nuclear Fusion
Volume	36
Issue number	9
DOIs	https://doi.org/10.1088/0029-5515/36/9/I06
State	Published - Sep 1996

All Science Journal Classification (ASJC) codes

Nuclear and High Energy Physics
Condensed Matter Physics

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@article{ca891ed714a84c8ea685d0f8e4e7abb5,

title = "Role of the stabilizing shell in high-β, low-q disruptions in PBX-M",

abstract = "The characteristics of high-β, low-q disruptions have been studied in PBX-M, a device with a nearby conducting shell. The coupling between the wall and the plasma was varied by choosing different plasma shapes, including nearly circular plasmas, D-shaped plasmas and bean-shaped plasmas (indented on the midplane), and by increasing the effective coverage of the plasma by the shell. Disruption precursors were observed to have a strong dependence on the coupling between the plasma and the shell. Measured mode growth times vary from between several times the Alfv{\'e}n time-scale (∼100 μs) to the L/R time-scale of the wall (∼20 ms). The behaviour of observed disruption precursors is interpreted in terms of the resistive wall mode theory of ideal plasmas, and a detailed calculation of the stability of a strongly coupled bean configuration using the NOVA-W linear stability code is presented. The experimental observations are in good agreement with the theoretical predictions.",

author = "M. Okabayashi and N. Pomphrey and J. Manickam and Ward, \{D. J.\} and Bell, \{R. E.\} and Hatcher, \{R. E.\} and R. Kaita and Kaye, \{S. M.\} and Kugel, \{H. W.\} and B. LeBlanc and Levinton, \{F. M.\} and Roberts, \{D. W.\} and S. Sesnic and Y. Sun and H. Takahashi",

year = "1996",

month = sep,

doi = "10.1088/0029-5515/36/9/I06",

language = "English (US)",

volume = "36",

pages = "1167--1188",

journal = "Nuclear Fusion",

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TY - JOUR

T1 - Role of the stabilizing shell in high-β, low-q disruptions in PBX-M

AU - Okabayashi, M.

AU - Pomphrey, N.

AU - Manickam, J.

AU - Ward, D. J.

AU - Bell, R. E.

AU - Hatcher, R. E.

AU - Kaita, R.

AU - Kaye, S. M.

AU - Kugel, H. W.

AU - LeBlanc, B.

AU - Levinton, F. M.

AU - Roberts, D. W.

AU - Sesnic, S.

AU - Sun, Y.

AU - Takahashi, H.

PY - 1996/9

Y1 - 1996/9

N2 - The characteristics of high-β, low-q disruptions have been studied in PBX-M, a device with a nearby conducting shell. The coupling between the wall and the plasma was varied by choosing different plasma shapes, including nearly circular plasmas, D-shaped plasmas and bean-shaped plasmas (indented on the midplane), and by increasing the effective coverage of the plasma by the shell. Disruption precursors were observed to have a strong dependence on the coupling between the plasma and the shell. Measured mode growth times vary from between several times the Alfvén time-scale (∼100 μs) to the L/R time-scale of the wall (∼20 ms). The behaviour of observed disruption precursors is interpreted in terms of the resistive wall mode theory of ideal plasmas, and a detailed calculation of the stability of a strongly coupled bean configuration using the NOVA-W linear stability code is presented. The experimental observations are in good agreement with the theoretical predictions.

AB - The characteristics of high-β, low-q disruptions have been studied in PBX-M, a device with a nearby conducting shell. The coupling between the wall and the plasma was varied by choosing different plasma shapes, including nearly circular plasmas, D-shaped plasmas and bean-shaped plasmas (indented on the midplane), and by increasing the effective coverage of the plasma by the shell. Disruption precursors were observed to have a strong dependence on the coupling between the plasma and the shell. Measured mode growth times vary from between several times the Alfvén time-scale (∼100 μs) to the L/R time-scale of the wall (∼20 ms). The behaviour of observed disruption precursors is interpreted in terms of the resistive wall mode theory of ideal plasmas, and a detailed calculation of the stability of a strongly coupled bean configuration using the NOVA-W linear stability code is presented. The experimental observations are in good agreement with the theoretical predictions.

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SN - 0029-5515

VL - 36

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EP - 1188

JO - Nuclear Fusion

JF - Nuclear Fusion

IS - 9

ER -

Role of the stabilizing shell in high-β, low-q disruptions in PBX-M

Abstract

All Science Journal Classification (ASJC) codes

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