Spatially resolved toroidal plasma rotation with ICRF on JET

J. M. Noterdaeme; E. Righi; V. Chan; J. DeGrassie; K. Kirov; M. Mantsinen; M. F.F. Nave; D. Testa; K. D. Zastrow; R. Budny; R. Cesario; A. Gondhalekar; N. Hawkes; T. Hellsten; Ph Lamalle; F. Meo; F. Nguyen

doi:10.1088/0029-5515/43/4/309

Spatially resolved toroidal plasma rotation with ICRF on JET

J. M. Noterdaeme, E. Righi, V. Chan, J. DeGrassie, K. Kirov, M. Mantsinen, M. F.F. Nave, D. Testa, K. D. Zastrow, R. Budny, R. Cesario, A. Gondhalekar, N. Hawkes, T. Hellsten, Ph Lamalle, F. Meo, F. Nguyen

Laboratory for Plasma Physics

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Plasmas heated by ICRF only in the JET tokamak show distinct structures in the toroidal rotation profile, with regions where dω/dr > 0 when the minority cyclotron resonance layer is far off-axis. The rotation is dominantly co-current with a clear off-axis maximum. There is only a slight difference between a high-field side (HFS) or a low-field side position of this resonance layer: the off-axis maximum in the rotation profile is modestly higher for the HFS position. This is in contrast to the predictions of theories that rely mainly on the effects arising from ICRF-driven fast ions to account for ICRF-induced plasma rotation. The differences due to the direction of the antenna spectrum (co- or counter-) are small. A more central deposition of the ICRF power in L-mode and operation in H-mode both lead to more centrally peaked profiles, both in the co-direction. Strong MHD modes brake the rotation and lead to overall flat rotation profiles.

Originele taal-2	Engels
Pagina's (van-tot)	274-289
Aantal pagina's	16
Tijdschrift	Nuclear Fusion
Volume	43
Nummer van het tijdschrift	4
DOI's	https://doi.org/10.1088/0029-5515/43/4/309
Status	Gepubliceerd - apr. 2003

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Noterdaeme, J. M., Righi, E., Chan, V., DeGrassie, J., Kirov, K., Mantsinen, M., Nave, M. F. F., Testa, D., Zastrow, K. D., Budny, R., Cesario, R., Gondhalekar, A., Hawkes, N., Hellsten, T., Lamalle, P., Meo, F., & Nguyen, F. (2003). Spatially resolved toroidal plasma rotation with ICRF on JET. Nuclear Fusion, 43(4), 274-289. https://doi.org/10.1088/0029-5515/43/4/309

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title = "Spatially resolved toroidal plasma rotation with ICRF on JET",

abstract = "Plasmas heated by ICRF only in the JET tokamak show distinct structures in the toroidal rotation profile, with regions where dω/dr > 0 when the minority cyclotron resonance layer is far off-axis. The rotation is dominantly co-current with a clear off-axis maximum. There is only a slight difference between a high-field side (HFS) or a low-field side position of this resonance layer: the off-axis maximum in the rotation profile is modestly higher for the HFS position. This is in contrast to the predictions of theories that rely mainly on the effects arising from ICRF-driven fast ions to account for ICRF-induced plasma rotation. The differences due to the direction of the antenna spectrum (co- or counter-) are small. A more central deposition of the ICRF power in L-mode and operation in H-mode both lead to more centrally peaked profiles, both in the co-direction. Strong MHD modes brake the rotation and lead to overall flat rotation profiles.",

author = "Noterdaeme, {J. M.} and E. Righi and V. Chan and J. DeGrassie and K. Kirov and M. Mantsinen and Nave, {M. F.F.} and D. Testa and Zastrow, {K. D.} and R. Budny and R. Cesario and A. Gondhalekar and N. Hawkes and T. Hellsten and Ph Lamalle and F. Meo and F. Nguyen",

year = "2003",

month = apr,

doi = "10.1088/0029-5515/43/4/309",

language = "English",

volume = "43",

pages = "274--289",

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AU - Noterdaeme, J. M.

AU - Righi, E.

AU - Chan, V.

AU - DeGrassie, J.

AU - Kirov, K.

AU - Mantsinen, M.

AU - Nave, M. F.F.

AU - Testa, D.

AU - Zastrow, K. D.

AU - Budny, R.

AU - Cesario, R.

AU - Gondhalekar, A.

AU - Hawkes, N.

AU - Hellsten, T.

AU - Lamalle, Ph

AU - Meo, F.

AU - Nguyen, F.

PY - 2003/4

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N2 - Plasmas heated by ICRF only in the JET tokamak show distinct structures in the toroidal rotation profile, with regions where dω/dr > 0 when the minority cyclotron resonance layer is far off-axis. The rotation is dominantly co-current with a clear off-axis maximum. There is only a slight difference between a high-field side (HFS) or a low-field side position of this resonance layer: the off-axis maximum in the rotation profile is modestly higher for the HFS position. This is in contrast to the predictions of theories that rely mainly on the effects arising from ICRF-driven fast ions to account for ICRF-induced plasma rotation. The differences due to the direction of the antenna spectrum (co- or counter-) are small. A more central deposition of the ICRF power in L-mode and operation in H-mode both lead to more centrally peaked profiles, both in the co-direction. Strong MHD modes brake the rotation and lead to overall flat rotation profiles.

AB - Plasmas heated by ICRF only in the JET tokamak show distinct structures in the toroidal rotation profile, with regions where dω/dr > 0 when the minority cyclotron resonance layer is far off-axis. The rotation is dominantly co-current with a clear off-axis maximum. There is only a slight difference between a high-field side (HFS) or a low-field side position of this resonance layer: the off-axis maximum in the rotation profile is modestly higher for the HFS position. This is in contrast to the predictions of theories that rely mainly on the effects arising from ICRF-driven fast ions to account for ICRF-induced plasma rotation. The differences due to the direction of the antenna spectrum (co- or counter-) are small. A more central deposition of the ICRF power in L-mode and operation in H-mode both lead to more centrally peaked profiles, both in the co-direction. Strong MHD modes brake the rotation and lead to overall flat rotation profiles.

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Spatially resolved toroidal plasma rotation with ICRF on JET

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