Observation of self-generated flows in tokamak plasmas with lower-hybrid-driven current

A. Ince-Cushman; J. E. Rice; M. Reinke; M. Greenwald; G. Wallace; R. Parker; C. Fiore; J. W. Hughes; P. Bonoli; S. Shiraiwa; A. Hubbard; S. Wolfe; I. H. Hutchinson; E. Marmar; M. Bitter; J. Wilson; K. Hill

doi:10.1103/PhysRevLett.102.035002

Observation of self-generated flows in tokamak plasmas with lower-hybrid-driven current

A. Ince-Cushman, J. E. Rice, M. Reinke, M. Greenwald, G. Wallace, R. Parker, C. Fiore, J. W. Hughes, P. Bonoli, S. Shiraiwa, A. Hubbard, S. Wolfe, I. H. Hutchinson, E. Marmar, M. Bitter, J. Wilson, K. Hill

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Abstract

In Alcator C-Mod discharges lower hybrid waves have been shown to induce a countercurrent change in toroidal rotation of up to 60km/s in the central region of the plasma (r/a∼<0.4). This modification of the toroidal rotation profile develops on a time scale comparable to the current redistribution time (∼100ms) but longer than the energy and momentum confinement times (∼20ms). A comparison of the co- and countercurrent injected waves indicates that current drive (as opposed to heating) is responsible for the rotation profile modifications. Furthermore, the changes in central rotation velocity induced by lower hybrid current drive (LHCD) are well correlated with changes in normalized internal inductance. The application of LHCD has been shown to generate sheared rotation profiles and a negative increment in the radial electric field profile consistent with a fast electron pinch.

Original language	English (US)
Article number	035002
Journal	Physical review letters
Volume	102
Issue number	3
DOIs	https://doi.org/10.1103/PhysRevLett.102.035002
State	Published - Jan 20 2009
Externally published	Yes

All Science Journal Classification (ASJC) codes

General Physics and Astronomy

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10.1103/PhysRevLett.102.035002

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Ince-Cushman, A., Rice, J. E., Reinke, M., Greenwald, M., Wallace, G., Parker, R., Fiore, C., Hughes, J. W., Bonoli, P., Shiraiwa, S., Hubbard, A., Wolfe, S., Hutchinson, I. H., Marmar, E., Bitter, M., Wilson, J., & Hill, K. (2009). Observation of self-generated flows in tokamak plasmas with lower-hybrid-driven current. Physical review letters, 102(3), Article 035002. https://doi.org/10.1103/PhysRevLett.102.035002

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title = "Observation of self-generated flows in tokamak plasmas with lower-hybrid-driven current",

abstract = "In Alcator C-Mod discharges lower hybrid waves have been shown to induce a countercurrent change in toroidal rotation of up to 60km/s in the central region of the plasma (r/a∼<0.4). This modification of the toroidal rotation profile develops on a time scale comparable to the current redistribution time (∼100ms) but longer than the energy and momentum confinement times (∼20ms). A comparison of the co- and countercurrent injected waves indicates that current drive (as opposed to heating) is responsible for the rotation profile modifications. Furthermore, the changes in central rotation velocity induced by lower hybrid current drive (LHCD) are well correlated with changes in normalized internal inductance. The application of LHCD has been shown to generate sheared rotation profiles and a negative increment in the radial electric field profile consistent with a fast electron pinch.",

author = "A. Ince-Cushman and Rice, \{J. E.\} and M. Reinke and M. Greenwald and G. Wallace and R. Parker and C. Fiore and Hughes, \{J. W.\} and P. Bonoli and S. Shiraiwa and A. Hubbard and S. Wolfe and Hutchinson, \{I. H.\} and E. Marmar and M. Bitter and J. Wilson and K. Hill",

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doi = "10.1103/PhysRevLett.102.035002",

language = "English (US)",

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Ince-Cushman, A, Rice, JE, Reinke, M, Greenwald, M, Wallace, G, Parker, R, Fiore, C, Hughes, JW, Bonoli, P, Shiraiwa, S, Hubbard, A, Wolfe, S, Hutchinson, IH, Marmar, E, Bitter, M, Wilson, J & Hill, K 2009, 'Observation of self-generated flows in tokamak plasmas with lower-hybrid-driven current', Physical review letters, vol. 102, no. 3, 035002. https://doi.org/10.1103/PhysRevLett.102.035002

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T1 - Observation of self-generated flows in tokamak plasmas with lower-hybrid-driven current

AU - Ince-Cushman, A.

AU - Rice, J. E.

AU - Reinke, M.

AU - Greenwald, M.

AU - Wallace, G.

AU - Parker, R.

AU - Fiore, C.

AU - Hughes, J. W.

AU - Bonoli, P.

AU - Shiraiwa, S.

AU - Hubbard, A.

AU - Wolfe, S.

AU - Hutchinson, I. H.

AU - Marmar, E.

AU - Bitter, M.

AU - Wilson, J.

AU - Hill, K.

PY - 2009/1/20

Y1 - 2009/1/20

N2 - In Alcator C-Mod discharges lower hybrid waves have been shown to induce a countercurrent change in toroidal rotation of up to 60km/s in the central region of the plasma (r/a∼<0.4). This modification of the toroidal rotation profile develops on a time scale comparable to the current redistribution time (∼100ms) but longer than the energy and momentum confinement times (∼20ms). A comparison of the co- and countercurrent injected waves indicates that current drive (as opposed to heating) is responsible for the rotation profile modifications. Furthermore, the changes in central rotation velocity induced by lower hybrid current drive (LHCD) are well correlated with changes in normalized internal inductance. The application of LHCD has been shown to generate sheared rotation profiles and a negative increment in the radial electric field profile consistent with a fast electron pinch.

AB - In Alcator C-Mod discharges lower hybrid waves have been shown to induce a countercurrent change in toroidal rotation of up to 60km/s in the central region of the plasma (r/a∼<0.4). This modification of the toroidal rotation profile develops on a time scale comparable to the current redistribution time (∼100ms) but longer than the energy and momentum confinement times (∼20ms). A comparison of the co- and countercurrent injected waves indicates that current drive (as opposed to heating) is responsible for the rotation profile modifications. Furthermore, the changes in central rotation velocity induced by lower hybrid current drive (LHCD) are well correlated with changes in normalized internal inductance. The application of LHCD has been shown to generate sheared rotation profiles and a negative increment in the radial electric field profile consistent with a fast electron pinch.

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JO - Physical review letters

JF - Physical review letters

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Observation of self-generated flows in tokamak plasmas with lower-hybrid-driven current

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