Magnetic island induced bootstrap current on island dynamics in tokamaks

K. C. Shaing; D. A. Spong

doi:10.1063/1.2169773

Magnetic island induced bootstrap current on island dynamics in tokamaks

K. C. Shaing, D. A. Spong

太空與電漿科學研究所

研究成果: Article › 同行評審

3 引文斯高帕斯（Scopus）

摘要

When a magnetic island is embedded in toroidally symmetric tokamaks, the toroidal symmetry in ∫B∫ is broken [K. C. Shaing, Phys. Rev. Lett. 87, 245003 (2001)]. Here, B is the magnetic field. This broken symmetry induces an additional bootstrap current density in the vicinity of the island. It is illustrated that this island induced bootstrap current density modifies the island evolution equation and imposes a lower limit on the absolute value of the tearing mode stability parameter ∫ Δ′ ∫ for the island to be unstable. This lower limit depends on the local poloidal plasma beta Βp, the ratio of the plasma pressure to the poloidal magnetic field pressure. If Βp is high enough, the magnetic island is stable. This mechanism provides an alternative route to stabilize the island.

原文	English
文章編號	022501
期刊	Physics of Plasmas
卷	13
發行號	2
DOIs	https://doi.org/10.1063/1.2169773
出版狀態	Published - 2006 2月

All Science Journal Classification (ASJC) codes

凝聚態物理學

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10.1063/1.2169773

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abstract = "When a magnetic island is embedded in toroidally symmetric tokamaks, the toroidal symmetry in ∫B∫ is broken [K. C. Shaing, Phys. Rev. Lett. 87, 245003 (2001)]. Here, B is the magnetic field. This broken symmetry induces an additional bootstrap current density in the vicinity of the island. It is illustrated that this island induced bootstrap current density modifies the island evolution equation and imposes a lower limit on the absolute value of the tearing mode stability parameter ∫ Δ′ ∫ for the island to be unstable. This lower limit depends on the local poloidal plasma beta Βp, the ratio of the plasma pressure to the poloidal magnetic field pressure. If Βp is high enough, the magnetic island is stable. This mechanism provides an alternative route to stabilize the island.",

author = "Shaing, {K. C.} and Spong, {D. A.}",

note = "Funding Information: The authors would like to thank S. P. Hirshman for illuminating the subtlety of the DKES code. This work was supported by US Department of Energy under Grant No. DE-FG02-01ER54619 with the University of Wisconsin.",

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T1 - Magnetic island induced bootstrap current on island dynamics in tokamaks

AU - Shaing, K. C.

AU - Spong, D. A.

N1 - Funding Information: The authors would like to thank S. P. Hirshman for illuminating the subtlety of the DKES code. This work was supported by US Department of Energy under Grant No. DE-FG02-01ER54619 with the University of Wisconsin.

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N2 - When a magnetic island is embedded in toroidally symmetric tokamaks, the toroidal symmetry in ∫B∫ is broken [K. C. Shaing, Phys. Rev. Lett. 87, 245003 (2001)]. Here, B is the magnetic field. This broken symmetry induces an additional bootstrap current density in the vicinity of the island. It is illustrated that this island induced bootstrap current density modifies the island evolution equation and imposes a lower limit on the absolute value of the tearing mode stability parameter ∫ Δ′ ∫ for the island to be unstable. This lower limit depends on the local poloidal plasma beta Βp, the ratio of the plasma pressure to the poloidal magnetic field pressure. If Βp is high enough, the magnetic island is stable. This mechanism provides an alternative route to stabilize the island.

AB - When a magnetic island is embedded in toroidally symmetric tokamaks, the toroidal symmetry in ∫B∫ is broken [K. C. Shaing, Phys. Rev. Lett. 87, 245003 (2001)]. Here, B is the magnetic field. This broken symmetry induces an additional bootstrap current density in the vicinity of the island. It is illustrated that this island induced bootstrap current density modifies the island evolution equation and imposes a lower limit on the absolute value of the tearing mode stability parameter ∫ Δ′ ∫ for the island to be unstable. This lower limit depends on the local poloidal plasma beta Βp, the ratio of the plasma pressure to the poloidal magnetic field pressure. If Βp is high enough, the magnetic island is stable. This mechanism provides an alternative route to stabilize the island.

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Magnetic island induced bootstrap current on island dynamics in tokamaks

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