The plasma boundary in single helical axis RFP plasmas

E. Martines; R. Lorenzini; B. Momo; S. Munaretto; P. Innocente; M. Spolaore

doi:10.1088/0029-5515/50/3/035014

The plasma boundary in single helical axis RFP plasmas

E. Martines, R. Lorenzini, B. Momo, S. Munaretto, P. Innocente, M. Spolaore

Research output: Contribution to journal › Article › peer-review

38 Scopus citations

Abstract

Single helical axis states obtained in high current reversed field pinch plasmas display, aside from a dominant mode in the m = 1 spectrum, also a dominant m = 0 mode, with the same toroidal mode number as the m = 1 one. The two modes have a fixed phase relationship. The island chain created by the m = 0 mode across the reversal surface gives rise, at shallow reversal of the toroidal field, to an X-point structure which separates the last closed flux surface from the first wall, creating a divertor-like configuration. The plasma-wall interaction is found to be related to the connection length of the field lines intercepting the wall, which displays a pattern modulated by the dominant mode toroidal periodicity. This configuration, which occurs only for shallow toroidal field reversal, could be exploited to realize an island divertor in analogy to stellarators.

Original language	English (US)
Article number	035014
Journal	Nuclear Fusion
Volume	50
Issue number	3
DOIs	https://doi.org/10.1088/0029-5515/50/3/035014
State	Published - 2010
Externally published	Yes

All Science Journal Classification (ASJC) codes

Nuclear and High Energy Physics
Condensed Matter Physics

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10.1088/0029-5515/50/3/035014

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abstract = "Single helical axis states obtained in high current reversed field pinch plasmas display, aside from a dominant mode in the m = 1 spectrum, also a dominant m = 0 mode, with the same toroidal mode number as the m = 1 one. The two modes have a fixed phase relationship. The island chain created by the m = 0 mode across the reversal surface gives rise, at shallow reversal of the toroidal field, to an X-point structure which separates the last closed flux surface from the first wall, creating a divertor-like configuration. The plasma-wall interaction is found to be related to the connection length of the field lines intercepting the wall, which displays a pattern modulated by the dominant mode toroidal periodicity. This configuration, which occurs only for shallow toroidal field reversal, could be exploited to realize an island divertor in analogy to stellarators.",

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AU - Martines, E.

AU - Lorenzini, R.

AU - Momo, B.

AU - Munaretto, S.

AU - Innocente, P.

AU - Spolaore, M.

PY - 2010

Y1 - 2010

N2 - Single helical axis states obtained in high current reversed field pinch plasmas display, aside from a dominant mode in the m = 1 spectrum, also a dominant m = 0 mode, with the same toroidal mode number as the m = 1 one. The two modes have a fixed phase relationship. The island chain created by the m = 0 mode across the reversal surface gives rise, at shallow reversal of the toroidal field, to an X-point structure which separates the last closed flux surface from the first wall, creating a divertor-like configuration. The plasma-wall interaction is found to be related to the connection length of the field lines intercepting the wall, which displays a pattern modulated by the dominant mode toroidal periodicity. This configuration, which occurs only for shallow toroidal field reversal, could be exploited to realize an island divertor in analogy to stellarators.

AB - Single helical axis states obtained in high current reversed field pinch plasmas display, aside from a dominant mode in the m = 1 spectrum, also a dominant m = 0 mode, with the same toroidal mode number as the m = 1 one. The two modes have a fixed phase relationship. The island chain created by the m = 0 mode across the reversal surface gives rise, at shallow reversal of the toroidal field, to an X-point structure which separates the last closed flux surface from the first wall, creating a divertor-like configuration. The plasma-wall interaction is found to be related to the connection length of the field lines intercepting the wall, which displays a pattern modulated by the dominant mode toroidal periodicity. This configuration, which occurs only for shallow toroidal field reversal, could be exploited to realize an island divertor in analogy to stellarators.

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The plasma boundary in single helical axis RFP plasmas

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