Experimental demonstration of an up-down asymmetry effect on intrinsic rotation in the TCV tokamak

Y. Camenen; A. Bortolon; B. P. Duval; L. Federspiel; A. G. Peeters; F. J. Casson; W. A. Hornsby; A. N. Karpushov; F. Piras; O. Sauter; A. P. Snodin; G. Szepesi

doi:10.1088/0741-3335/52/12/124037

Experimental demonstration of an up-down asymmetry effect on intrinsic rotation in the TCV tokamak

Y. Camenen, A. Bortolon, B. P. Duval, L. Federspiel, A. G. Peeters, F. J. Casson, W. A. Hornsby, A. N. Karpushov, F. Piras, O. Sauter, A. P. Snodin, G. Szepesi

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24 Scopus citations

Abstract

A new mechanism has recently been proposed that generates a radial flux of parallel momentum in toroidal plasmas. Namely, by considering up-down asymmetric flux surfaces, the symmetry following the magnetic field can be broken and an additional contribution to the turbulent momentum flux arises, potentially changing the intrinsic rotation profile. These predictions are tested with specific experiments on TCV. The intrinsic toroidal rotation is observed to change by roughly a factor of two when changing the up-down asymmetry of the plasma. More precisely, the toroidal rotation gradient changes in the outer part of the plasma, where the flux surface asymmetry is the highest. The experiments were performed for all combinations of the toroidal magnetic field and plasma current directions, that affect the sign of the predicted up-down asymmetry flux. In each case the variation of the intrinsic rotation profile with the up-down asymmetry is observed in the direction predicted by the theory.

Original language	English (US)
Article number	124037
Journal	Plasma Physics and Controlled Fusion
Volume	52
Issue number	12
DOIs	https://doi.org/10.1088/0741-3335/52/12/124037
State	Published - Dec 2010
Externally published	Yes

All Science Journal Classification (ASJC) codes

Nuclear Energy and Engineering
Condensed Matter Physics

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10.1088/0741-3335/52/12/124037

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Camenen, Y., Bortolon, A., Duval, B. P., Federspiel, L., Peeters, A. G., Casson, F. J., Hornsby, W. A., Karpushov, A. N., Piras, F., Sauter, O., Snodin, A. P., & Szepesi, G. (2010). Experimental demonstration of an up-down asymmetry effect on intrinsic rotation in the TCV tokamak. Plasma Physics and Controlled Fusion, 52(12), Article 124037. https://doi.org/10.1088/0741-3335/52/12/124037

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title = "Experimental demonstration of an up-down asymmetry effect on intrinsic rotation in the TCV tokamak",

abstract = "A new mechanism has recently been proposed that generates a radial flux of parallel momentum in toroidal plasmas. Namely, by considering up-down asymmetric flux surfaces, the symmetry following the magnetic field can be broken and an additional contribution to the turbulent momentum flux arises, potentially changing the intrinsic rotation profile. These predictions are tested with specific experiments on TCV. The intrinsic toroidal rotation is observed to change by roughly a factor of two when changing the up-down asymmetry of the plasma. More precisely, the toroidal rotation gradient changes in the outer part of the plasma, where the flux surface asymmetry is the highest. The experiments were performed for all combinations of the toroidal magnetic field and plasma current directions, that affect the sign of the predicted up-down asymmetry flux. In each case the variation of the intrinsic rotation profile with the up-down asymmetry is observed in the direction predicted by the theory.",

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doi = "10.1088/0741-3335/52/12/124037",

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T1 - Experimental demonstration of an up-down asymmetry effect on intrinsic rotation in the TCV tokamak

AU - Camenen, Y.

AU - Bortolon, A.

AU - Duval, B. P.

AU - Federspiel, L.

AU - Peeters, A. G.

AU - Casson, F. J.

AU - Hornsby, W. A.

AU - Karpushov, A. N.

AU - Piras, F.

AU - Sauter, O.

AU - Snodin, A. P.

AU - Szepesi, G.

PY - 2010/12

Y1 - 2010/12

N2 - A new mechanism has recently been proposed that generates a radial flux of parallel momentum in toroidal plasmas. Namely, by considering up-down asymmetric flux surfaces, the symmetry following the magnetic field can be broken and an additional contribution to the turbulent momentum flux arises, potentially changing the intrinsic rotation profile. These predictions are tested with specific experiments on TCV. The intrinsic toroidal rotation is observed to change by roughly a factor of two when changing the up-down asymmetry of the plasma. More precisely, the toroidal rotation gradient changes in the outer part of the plasma, where the flux surface asymmetry is the highest. The experiments were performed for all combinations of the toroidal magnetic field and plasma current directions, that affect the sign of the predicted up-down asymmetry flux. In each case the variation of the intrinsic rotation profile with the up-down asymmetry is observed in the direction predicted by the theory.

AB - A new mechanism has recently been proposed that generates a radial flux of parallel momentum in toroidal plasmas. Namely, by considering up-down asymmetric flux surfaces, the symmetry following the magnetic field can be broken and an additional contribution to the turbulent momentum flux arises, potentially changing the intrinsic rotation profile. These predictions are tested with specific experiments on TCV. The intrinsic toroidal rotation is observed to change by roughly a factor of two when changing the up-down asymmetry of the plasma. More precisely, the toroidal rotation gradient changes in the outer part of the plasma, where the flux surface asymmetry is the highest. The experiments were performed for all combinations of the toroidal magnetic field and plasma current directions, that affect the sign of the predicted up-down asymmetry flux. In each case the variation of the intrinsic rotation profile with the up-down asymmetry is observed in the direction predicted by the theory.

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VL - 52

JO - Plasma Physics and Controlled Fusion

JF - Plasma Physics and Controlled Fusion

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ER -

Experimental demonstration of an up-down asymmetry effect on intrinsic rotation in the TCV tokamak

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