Development of RF tools and scenarios for ITER on JET

J. M. Noterdaeme; M. Mantsinen; V. Bobkov; A. Ekedahl; L. G. Eriksson; P. U. Lamalle; A. Lyssoivan; J. Mailloux; M. L. Mayoral; F. Meo; I. Monakhov; K. Rantamaki; A. Salmi; M. Santala; S. Sharapov; D. Van Eester

doi:10.1063/1.2098202

Development of RF tools and scenarios for ITER on JET

J. M. Noterdaeme, M. Mantsinen, V. Bobkov, A. Ekedahl, L. G. Eriksson, P. U. Lamalle, A. Lyssoivan, J. Mailloux, M. L. Mayoral, F. Meo, I. Monakhov, K. Rantamaki, A. Salmi, M. Santala, S. Sharapov, D. Van Eester

Laboratory for Plasma Physics

Résultats de recherche: Chapitre dans un livre, un rapport, des actes de conférences › Contribution à une conférence › Revue par des pairs

Résumé

The improvement of LH coupling with local puffing of D₂ gas, which made operation at ITER relevant distances (10 cm) and with ELMs a reality, has been extended to ITER- like plasma shapes with higher triangularity. With ICRF, we developed tools such as (1) localized direct electron heating using the ³He mode conversion scenario for electron heat transport studies, (2) the production of ⁴He ions with energies in the MeV range by 3 ω_c acceleration of beam injected ions at 120 keV to investigate Alfven instabilities and test α diagnostics, (3) the stabilisation and destabilisation of sawteeth and (4) ICRF as as a wall conditioning. Several ITER relevant scenarios were tested. The (³He)H minority heating scenario, considered for the non-activated start-up phase of ITER, produces at very low concentration energetic ³He which heat the electrons indirectly. For n_3He/n_e > 2%, the scenario transforms to a mode conversion scenario where the electrons are heated directly. The (D)H minority heating is not accessible as the concentration of C⁶⁺ dominates the wave propagation and always leads to mode conversion. The minority heating of T in D is very effective heating for ions and producing neutrons. New results were obtained in several areas of ICRF physics. Experimental evidence confirmed the theoretical prediction that, as the larmor radius increases beyond 0.5 times the perpendicular wavelength of the wave, the second harmonic acceleration of the ions decreases to very small levels. An exotic fusion reaction (pT) must be taken into account when evaluating neutron rates. The contribution of fast particles accelerated by ICRF to the plasma rotation was clearly identified, but it is only part of an underlying, and not yet understood, co-current plasma rotation. Progress was made in the physics of ELMs while their effect on the ICRF coupling could be minimized with the conjugate-T matching scheme. The addition of 3 dB couplers is a step in increasing the power capability of the ICRF heating on JET in ELMy plasmas. The installation of an ITER-like, ELM resilient antenna in 2006 will further improve this and be a test of the ICRF scheme for ITER.

langue originale	Anglais
titre	RADIO FREQUENCY POWER IN PLASMAS
Sous-titre	16th Topical Conference on Radio Frequency Power in Plasmas
Pages	90-97
Nombre de pages	8
Les DOIs	https://doi.org/10.1063/1.2098202
état	Publié - 26 sept. 2005
Evénement	RADIO FREQUENCY POWER IN PLASMAS: 16th Topical Conference on Radio Frequency Power in Plasmas - Park City, UT, États-Unis Durée: 11 avr. 2005 → 13 avr. 2005

Série de publications

Nom	AIP Conference Proceedings
Volume	787
ISSN (imprimé)	0094-243X
ISSN (Electronique)	1551-7616

Une conférence

Une conférence	RADIO FREQUENCY POWER IN PLASMAS: 16th Topical Conference on Radio Frequency Power in Plasmas
Pays/Territoire	États-Unis
La ville	Park City, UT
période	11/04/05 → 13/04/05

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10.1063/1.2098202

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Noterdaeme, J. M., Mantsinen, M., Bobkov, V., Ekedahl, A., Eriksson, L. G., Lamalle, P. U., Lyssoivan, A., Mailloux, J., Mayoral, M. L., Meo, F., Monakhov, I., Rantamaki, K., Salmi, A., Santala, M., Sharapov, S., & Van Eester, D. (2005). Development of RF tools and scenarios for ITER on JET. Dans RADIO FREQUENCY POWER IN PLASMAS: 16th Topical Conference on Radio Frequency Power in Plasmas (p. 90-97). (AIP Conference Proceedings; Vol 787). https://doi.org/10.1063/1.2098202

@inproceedings{c1ffc3d849f348428a7e54fc2e2447e3,

title = "Development of RF tools and scenarios for ITER on JET",

abstract = "The improvement of LH coupling with local puffing of D2 gas, which made operation at ITER relevant distances (10 cm) and with ELMs a reality, has been extended to ITER- like plasma shapes with higher triangularity. With ICRF, we developed tools such as (1) localized direct electron heating using the 3He mode conversion scenario for electron heat transport studies, (2) the production of 4He ions with energies in the MeV range by 3 ωc acceleration of beam injected ions at 120 keV to investigate Alfven instabilities and test α diagnostics, (3) the stabilisation and destabilisation of sawteeth and (4) ICRF as as a wall conditioning. Several ITER relevant scenarios were tested. The (3He)H minority heating scenario, considered for the non-activated start-up phase of ITER, produces at very low concentration energetic 3He which heat the electrons indirectly. For n3He/ne > 2%, the scenario transforms to a mode conversion scenario where the electrons are heated directly. The (D)H minority heating is not accessible as the concentration of C6+ dominates the wave propagation and always leads to mode conversion. The minority heating of T in D is very effective heating for ions and producing neutrons. New results were obtained in several areas of ICRF physics. Experimental evidence confirmed the theoretical prediction that, as the larmor radius increases beyond 0.5 times the perpendicular wavelength of the wave, the second harmonic acceleration of the ions decreases to very small levels. An exotic fusion reaction (pT) must be taken into account when evaluating neutron rates. The contribution of fast particles accelerated by ICRF to the plasma rotation was clearly identified, but it is only part of an underlying, and not yet understood, co-current plasma rotation. Progress was made in the physics of ELMs while their effect on the ICRF coupling could be minimized with the conjugate-T matching scheme. The addition of 3 dB couplers is a step in increasing the power capability of the ICRF heating on JET in ELMy plasmas. The installation of an ITER-like, ELM resilient antenna in 2006 will further improve this and be a test of the ICRF scheme for ITER.",

keywords = "Coupling, Heating, ICRF, ICRH, LH, Plasma production, Rotation, Tokamak",

author = "Noterdaeme, {J. M.} and M. Mantsinen and V. Bobkov and A. Ekedahl and Eriksson, {L. G.} and Lamalle, {P. U.} and A. Lyssoivan and J. Mailloux and Mayoral, {M. L.} and F. Meo and I. Monakhov and K. Rantamaki and A. Salmi and M. Santala and S. Sharapov and {Van Eester}, D.",

year = "2005",

month = sep,

day = "26",

doi = "10.1063/1.2098202",

language = "English",

isbn = "0735402760",

series = "AIP Conference Proceedings",

pages = "90--97",

booktitle = "RADIO FREQUENCY POWER IN PLASMAS",

note = "RADIO FREQUENCY POWER IN PLASMAS: 16th Topical Conference on Radio Frequency Power in Plasmas ; Conference date: 11-04-2005 Through 13-04-2005",

}

Noterdaeme, JM, Mantsinen, M, Bobkov, V, Ekedahl, A, Eriksson, LG, Lamalle, PU, Lyssoivan, A, Mailloux, J, Mayoral, ML, Meo, F, Monakhov, I, Rantamaki, K, Salmi, A, Santala, M, Sharapov, S & Van Eester, D 2005, Development of RF tools and scenarios for ITER on JET. Dans RADIO FREQUENCY POWER IN PLASMAS: 16th Topical Conference on Radio Frequency Power in Plasmas. AIP Conference Proceedings, VOL. 787, p. 90-97, RADIO FREQUENCY POWER IN PLASMAS: 16th Topical Conference on Radio Frequency Power in Plasmas, Park City, UT, États-Unis, 11/04/05. https://doi.org/10.1063/1.2098202

Development of RF tools and scenarios for ITER on JET. / Noterdaeme, J. M.; Mantsinen, M.; Bobkov, V. et al.
RADIO FREQUENCY POWER IN PLASMAS: 16th Topical Conference on Radio Frequency Power in Plasmas. 2005. p. 90-97 (AIP Conference Proceedings; Vol 787).

Résultats de recherche: Chapitre dans un livre, un rapport, des actes de conférences › Contribution à une conférence › Revue par des pairs

TY - GEN

T1 - Development of RF tools and scenarios for ITER on JET

AU - Noterdaeme, J. M.

AU - Mantsinen, M.

AU - Bobkov, V.

AU - Ekedahl, A.

AU - Eriksson, L. G.

AU - Lamalle, P. U.

AU - Lyssoivan, A.

AU - Mailloux, J.

AU - Mayoral, M. L.

AU - Meo, F.

AU - Monakhov, I.

AU - Rantamaki, K.

AU - Salmi, A.

AU - Santala, M.

AU - Sharapov, S.

AU - Van Eester, D.

PY - 2005/9/26

Y1 - 2005/9/26

N2 - The improvement of LH coupling with local puffing of D2 gas, which made operation at ITER relevant distances (10 cm) and with ELMs a reality, has been extended to ITER- like plasma shapes with higher triangularity. With ICRF, we developed tools such as (1) localized direct electron heating using the 3He mode conversion scenario for electron heat transport studies, (2) the production of 4He ions with energies in the MeV range by 3 ωc acceleration of beam injected ions at 120 keV to investigate Alfven instabilities and test α diagnostics, (3) the stabilisation and destabilisation of sawteeth and (4) ICRF as as a wall conditioning. Several ITER relevant scenarios were tested. The (3He)H minority heating scenario, considered for the non-activated start-up phase of ITER, produces at very low concentration energetic 3He which heat the electrons indirectly. For n3He/ne > 2%, the scenario transforms to a mode conversion scenario where the electrons are heated directly. The (D)H minority heating is not accessible as the concentration of C6+ dominates the wave propagation and always leads to mode conversion. The minority heating of T in D is very effective heating for ions and producing neutrons. New results were obtained in several areas of ICRF physics. Experimental evidence confirmed the theoretical prediction that, as the larmor radius increases beyond 0.5 times the perpendicular wavelength of the wave, the second harmonic acceleration of the ions decreases to very small levels. An exotic fusion reaction (pT) must be taken into account when evaluating neutron rates. The contribution of fast particles accelerated by ICRF to the plasma rotation was clearly identified, but it is only part of an underlying, and not yet understood, co-current plasma rotation. Progress was made in the physics of ELMs while their effect on the ICRF coupling could be minimized with the conjugate-T matching scheme. The addition of 3 dB couplers is a step in increasing the power capability of the ICRF heating on JET in ELMy plasmas. The installation of an ITER-like, ELM resilient antenna in 2006 will further improve this and be a test of the ICRF scheme for ITER.

AB - The improvement of LH coupling with local puffing of D2 gas, which made operation at ITER relevant distances (10 cm) and with ELMs a reality, has been extended to ITER- like plasma shapes with higher triangularity. With ICRF, we developed tools such as (1) localized direct electron heating using the 3He mode conversion scenario for electron heat transport studies, (2) the production of 4He ions with energies in the MeV range by 3 ωc acceleration of beam injected ions at 120 keV to investigate Alfven instabilities and test α diagnostics, (3) the stabilisation and destabilisation of sawteeth and (4) ICRF as as a wall conditioning. Several ITER relevant scenarios were tested. The (3He)H minority heating scenario, considered for the non-activated start-up phase of ITER, produces at very low concentration energetic 3He which heat the electrons indirectly. For n3He/ne > 2%, the scenario transforms to a mode conversion scenario where the electrons are heated directly. The (D)H minority heating is not accessible as the concentration of C6+ dominates the wave propagation and always leads to mode conversion. The minority heating of T in D is very effective heating for ions and producing neutrons. New results were obtained in several areas of ICRF physics. Experimental evidence confirmed the theoretical prediction that, as the larmor radius increases beyond 0.5 times the perpendicular wavelength of the wave, the second harmonic acceleration of the ions decreases to very small levels. An exotic fusion reaction (pT) must be taken into account when evaluating neutron rates. The contribution of fast particles accelerated by ICRF to the plasma rotation was clearly identified, but it is only part of an underlying, and not yet understood, co-current plasma rotation. Progress was made in the physics of ELMs while their effect on the ICRF coupling could be minimized with the conjugate-T matching scheme. The addition of 3 dB couplers is a step in increasing the power capability of the ICRF heating on JET in ELMy plasmas. The installation of an ITER-like, ELM resilient antenna in 2006 will further improve this and be a test of the ICRF scheme for ITER.

KW - Coupling

KW - Heating

KW - ICRF

KW - ICRH

KW - LH

KW - Plasma production

KW - Rotation

KW - Tokamak

UR - http://www.scopus.com/inward/record.url?scp=33749650367&partnerID=8YFLogxK

U2 - 10.1063/1.2098202

DO - 10.1063/1.2098202

M3 - Conference contribution

AN - SCOPUS:33749650367

SN - 0735402760

SN - 9780735402768

T3 - AIP Conference Proceedings

SP - 90

EP - 97

BT - RADIO FREQUENCY POWER IN PLASMAS

T2 - RADIO FREQUENCY POWER IN PLASMAS: 16th Topical Conference on Radio Frequency Power in Plasmas

Y2 - 11 April 2005 through 13 April 2005

ER -

Development of RF tools and scenarios for ITER on JET

Résumé

Série de publications

Une conférence

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