Dynamic interaction between a solitary drift wave structure and zonal flows in a linear cylindrical device

H. Arakawa; T. Kobayashi; Inagaki Shigeru; N. Kasuya; S. Oldenbürger; Y. Nagashima; T. Yamada; M. Yagi; A. Fujisawa; K. Itoh; Sanae Itoh

doi:10.1088/0741-3335/53/11/115009

Dynamic interaction between a solitary drift wave structure and zonal flows in a linear cylindrical device

H. Arakawa, T. Kobayashi, Inagaki Shigeru, N. Kasuya, S. Oldenbürger, Y. Nagashima, T. Yamada, M. Yagi, A. Fujisawa, K. Itoh, Sanae Itoh

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21 Citations (Scopus)

Abstract

A solitary drift wave structure and its quasi-periodic change are discovered in a linear magnetized plasma. Detailed investigations show that the periodic changes are accompanied by an emission of splash, that is, a short lifetime event characterized by much higher frequencies than that of the fundamental drift waves. Dynamic interaction between the solitary wave and zonal flows is found to cause the emission of splashes since the splashes occur in a particular phase of zonal flows. The findings should give a deep insight into the dynamics and structural formation of magnetically confined plasmas and rotating planets, which are governed by drift and Rossby waves, respectively.

Original language	English
Article number	115009
Journal	Plasma Physics and Controlled Fusion
Volume	53
Issue number	11
DOIs	https://doi.org/10.1088/0741-3335/53/11/115009
Publication status	Published - Nov 2011

All Science Journal Classification (ASJC) codes

Nuclear Energy and Engineering
Condensed Matter Physics

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10.1088/0741-3335/53/11/115009

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abstract = "A solitary drift wave structure and its quasi-periodic change are discovered in a linear magnetized plasma. Detailed investigations show that the periodic changes are accompanied by an emission of splash, that is, a short lifetime event characterized by much higher frequencies than that of the fundamental drift waves. Dynamic interaction between the solitary wave and zonal flows is found to cause the emission of splashes since the splashes occur in a particular phase of zonal flows. The findings should give a deep insight into the dynamics and structural formation of magnetically confined plasmas and rotating planets, which are governed by drift and Rossby waves, respectively.",

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T1 - Dynamic interaction between a solitary drift wave structure and zonal flows in a linear cylindrical device

AU - Arakawa, H.

AU - Kobayashi, T.

AU - Shigeru, Inagaki

AU - Kasuya, N.

AU - Oldenbürger, S.

AU - Nagashima, Y.

AU - Yamada, T.

AU - Yagi, M.

AU - Fujisawa, A.

AU - Itoh, K.

AU - Itoh, Sanae

PY - 2011/11

Y1 - 2011/11

N2 - A solitary drift wave structure and its quasi-periodic change are discovered in a linear magnetized plasma. Detailed investigations show that the periodic changes are accompanied by an emission of splash, that is, a short lifetime event characterized by much higher frequencies than that of the fundamental drift waves. Dynamic interaction between the solitary wave and zonal flows is found to cause the emission of splashes since the splashes occur in a particular phase of zonal flows. The findings should give a deep insight into the dynamics and structural formation of magnetically confined plasmas and rotating planets, which are governed by drift and Rossby waves, respectively.

AB - A solitary drift wave structure and its quasi-periodic change are discovered in a linear magnetized plasma. Detailed investigations show that the periodic changes are accompanied by an emission of splash, that is, a short lifetime event characterized by much higher frequencies than that of the fundamental drift waves. Dynamic interaction between the solitary wave and zonal flows is found to cause the emission of splashes since the splashes occur in a particular phase of zonal flows. The findings should give a deep insight into the dynamics and structural formation of magnetically confined plasmas and rotating planets, which are governed by drift and Rossby waves, respectively.

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Dynamic interaction between a solitary drift wave structure and zonal flows in a linear cylindrical device

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