Impact of large type I ELMs on plasma radiation in JET

A. Huber; G. Arnoux; M. N.A. Beurskens; S. Brezinsek; P. Coad; T. Eich; J. C. Fuchs; W. Fundamenski; S. Jachmich; A. Korotkov; A. Loarte; A. G. Meigs; G. F. Matthews; Ph Mertens; V. Philipps; R. A. Pitts; U. Samm; G. Sergienko; B. Schweer; M. F. Stamp; H. Thomsen

Impact of large type I ELMs on plasma radiation in JET

A. Huber
, G. Arnoux
, M. N.A. Beurskens
, S. Brezinsek
, P. Coad
, T. Eich
, J. C. Fuchs
, W. Fundamenski
, S. Jachmich
, A. Korotkov
, A. Loarte
, A. G. Meigs
, G. F. Matthews
, Ph Mertens
, V. Philipps
, R. A. Pitts
, U. Samm
, G. Sergienko
, B. Schweer
, M. F. Stamp

H. Thomsen

Laboratory for Plasma Physics

FORSCHUNGSZENTRUM JULICH GMBH
Culham Centre for Fusion Energy
Max-Planck-Institut für Plasmaphysik
Commissariat à l'Énergie Atomique (CEA)

Publikation: Beitrag in Buch/Bericht/Konferenzband › Konferenzbeitrag › Begutachtung

Abstract

• Large type I ELMs with losses over 0.72MJ show enhanced radiation losses associated with an ablation of the redeposited carbon layer in the inner divertor. • Surface (layer) temperatures do not exceed ∼ 2000°C at inner target. The surface temperature is too low for bulk carbon ablation but provokes ablation of the deposited layers. • Large ELMs are often compound (Type I ELM followed by Type III ELMs). • A significant part (up to 80%) of the plasma energy degradation during the compound phase is exhausted by radiation. The degradation of confinement during the compound phase is accompanied by a collapse in pedestal density. • The "compound" phase indicates an increased plasma contamination, which otherwise does not lead to a radiative collapse of the plasma. • ELM-induced radiation is always higher at the inner than at the outer divertor: approximately a linear increase in asymmetry up to ΔW_ELM ∼ 0.6 MJ then a decrease for higher ΔW_ELM. • During the ELMs, the radiation is mostly located in the divertor region. • Giant ELMs drive the divertor into detachment after the ELM crash. Divertor detachment remains during the entire compound phase. • Larger ELMs deposit more energy on limiters. No energy is deposited in compound phases.

Originalsprache	Englisch
Titel	36th EPS Conference on Plasma Physics 2009, EPS 2009 - Europhysics Conference Abstracts
Seiten	765-768
Seitenumfang	4
Publikationsstatus	Veröffentlicht - 2009
Veranstaltung	36th European Physical Society Conference on Plasma Physics 2009, EPS 2009 - Sofia, Bulgarien Dauer: 29 Juni 2009 → 3 Juli 2009

Publikationsreihe

Name	36th EPS Conference on Plasma Physics 2009, EPS 2009 - Europhysics Conference Abstracts
Band	33 E1

Konferenz

Konferenz	36th European Physical Society Conference on Plasma Physics 2009, EPS 2009
Land/Gebiet	Bulgarien
Ort	Sofia
Zeitraum	29/06/09 → 3/07/09

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Huber, A., Arnoux, G., Beurskens, M. N. A., Brezinsek, S., Coad, P., Eich, T., Fuchs, J. C., Fundamenski, W., Jachmich, S., Korotkov, A., Loarte, A., Meigs, A. G., Matthews, G. F., Mertens, P., Philipps, V., Pitts, R. A., Samm, U., Sergienko, G., Schweer, B., ... Thomsen, H. (2009). Impact of large type I ELMs on plasma radiation in JET. in 36th EPS Conference on Plasma Physics 2009, EPS 2009 - Europhysics Conference Abstracts (S. 765-768). (36th EPS Conference on Plasma Physics 2009, EPS 2009 - Europhysics Conference Abstracts; Band 33 E1).

@inproceedings{d85693939726456c855723c6126e5d6b,

title = "Impact of large type I ELMs on plasma radiation in JET",

abstract = "• Large type I ELMs with losses over 0.72MJ show enhanced radiation losses associated with an ablation of the redeposited carbon layer in the inner divertor. • Surface (layer) temperatures do not exceed ∼ 2000°C at inner target. The surface temperature is too low for bulk carbon ablation but provokes ablation of the deposited layers. • Large ELMs are often compound (Type I ELM followed by Type III ELMs). • A significant part (up to 80\%) of the plasma energy degradation during the compound phase is exhausted by radiation. The degradation of confinement during the compound phase is accompanied by a collapse in pedestal density. • The {"}compound{"} phase indicates an increased plasma contamination, which otherwise does not lead to a radiative collapse of the plasma. • ELM-induced radiation is always higher at the inner than at the outer divertor: approximately a linear increase in asymmetry up to ΔWELM ∼ 0.6 MJ then a decrease for higher ΔWELM. • During the ELMs, the radiation is mostly located in the divertor region. • Giant ELMs drive the divertor into detachment after the ELM crash. Divertor detachment remains during the entire compound phase. • Larger ELMs deposit more energy on limiters. No energy is deposited in compound phases.",

author = "A. Huber and G. Arnoux and Beurskens, \{M. N.A.\} and S. Brezinsek and P. Coad and T. Eich and Fuchs, \{J. C.\} and W. Fundamenski and S. Jachmich and A. Korotkov and A. Loarte and Meigs, \{A. G.\} and Matthews, \{G. F.\} and Ph Mertens and V. Philipps and Pitts, \{R. A.\} and U. Samm and G. Sergienko and B. Schweer and Stamp, \{M. F.\} and H. Thomsen",

year = "2009",

language = "English",

isbn = "9781622763368",

series = "36th EPS Conference on Plasma Physics 2009, EPS 2009 - Europhysics Conference Abstracts",

pages = "765--768",

booktitle = "36th EPS Conference on Plasma Physics 2009, EPS 2009 - Europhysics Conference Abstracts",

note = "36th European Physical Society Conference on Plasma Physics 2009, EPS 2009 ; Conference date: 29-06-2009 Through 03-07-2009",

}

Huber, A, Arnoux, G, Beurskens, MNA, Brezinsek, S, Coad, P, Eich, T, Fuchs, JC, Fundamenski, W, Jachmich, S, Korotkov, A, Loarte, A, Meigs, AG, Matthews, GF, Mertens, P, Philipps, V, Pitts, RA, Samm, U, Sergienko, G, Schweer, B, Stamp, MF & Thomsen, H 2009, Impact of large type I ELMs on plasma radiation in JET. in 36th EPS Conference on Plasma Physics 2009, EPS 2009 - Europhysics Conference Abstracts. 36th EPS Conference on Plasma Physics 2009, EPS 2009 - Europhysics Conference Abstracts, Bd. 33 E1, S. 765-768, 36th European Physical Society Conference on Plasma Physics 2009, EPS 2009, Sofia, Bulgarien, 29/06/09.

Impact of large type I ELMs on plasma radiation in JET. / Huber, A.; Arnoux, G.; Beurskens, M. N.A. et al.
36th EPS Conference on Plasma Physics 2009, EPS 2009 - Europhysics Conference Abstracts. 2009. S. 765-768 (36th EPS Conference on Plasma Physics 2009, EPS 2009 - Europhysics Conference Abstracts; Band 33 E1).

Publikation: Beitrag in Buch/Bericht/Konferenzband › Konferenzbeitrag › Begutachtung

TY - GEN

T1 - Impact of large type I ELMs on plasma radiation in JET

AU - Huber, A.

AU - Arnoux, G.

AU - Beurskens, M. N.A.

AU - Brezinsek, S.

AU - Coad, P.

AU - Eich, T.

AU - Fuchs, J. C.

AU - Fundamenski, W.

AU - Jachmich, S.

AU - Korotkov, A.

AU - Loarte, A.

AU - Meigs, A. G.

AU - Matthews, G. F.

AU - Mertens, Ph

AU - Philipps, V.

AU - Pitts, R. A.

AU - Samm, U.

AU - Sergienko, G.

AU - Schweer, B.

AU - Stamp, M. F.

AU - Thomsen, H.

PY - 2009

Y1 - 2009

N2 - • Large type I ELMs with losses over 0.72MJ show enhanced radiation losses associated with an ablation of the redeposited carbon layer in the inner divertor. • Surface (layer) temperatures do not exceed ∼ 2000°C at inner target. The surface temperature is too low for bulk carbon ablation but provokes ablation of the deposited layers. • Large ELMs are often compound (Type I ELM followed by Type III ELMs). • A significant part (up to 80%) of the plasma energy degradation during the compound phase is exhausted by radiation. The degradation of confinement during the compound phase is accompanied by a collapse in pedestal density. • The "compound" phase indicates an increased plasma contamination, which otherwise does not lead to a radiative collapse of the plasma. • ELM-induced radiation is always higher at the inner than at the outer divertor: approximately a linear increase in asymmetry up to ΔWELM ∼ 0.6 MJ then a decrease for higher ΔWELM. • During the ELMs, the radiation is mostly located in the divertor region. • Giant ELMs drive the divertor into detachment after the ELM crash. Divertor detachment remains during the entire compound phase. • Larger ELMs deposit more energy on limiters. No energy is deposited in compound phases.

AB - • Large type I ELMs with losses over 0.72MJ show enhanced radiation losses associated with an ablation of the redeposited carbon layer in the inner divertor. • Surface (layer) temperatures do not exceed ∼ 2000°C at inner target. The surface temperature is too low for bulk carbon ablation but provokes ablation of the deposited layers. • Large ELMs are often compound (Type I ELM followed by Type III ELMs). • A significant part (up to 80%) of the plasma energy degradation during the compound phase is exhausted by radiation. The degradation of confinement during the compound phase is accompanied by a collapse in pedestal density. • The "compound" phase indicates an increased plasma contamination, which otherwise does not lead to a radiative collapse of the plasma. • ELM-induced radiation is always higher at the inner than at the outer divertor: approximately a linear increase in asymmetry up to ΔWELM ∼ 0.6 MJ then a decrease for higher ΔWELM. • During the ELMs, the radiation is mostly located in the divertor region. • Giant ELMs drive the divertor into detachment after the ELM crash. Divertor detachment remains during the entire compound phase. • Larger ELMs deposit more energy on limiters. No energy is deposited in compound phases.

UR - https://www.scopus.com/pages/publications/84872705004

M3 - Conference contribution

AN - SCOPUS:84872705004

SN - 9781622763368

T3 - 36th EPS Conference on Plasma Physics 2009, EPS 2009 - Europhysics Conference Abstracts

SP - 765

EP - 768

BT - 36th EPS Conference on Plasma Physics 2009, EPS 2009 - Europhysics Conference Abstracts

T2 - 36th European Physical Society Conference on Plasma Physics 2009, EPS 2009

Y2 - 29 June 2009 through 3 July 2009

ER -

Impact of large type I ELMs on plasma radiation in JET

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