Impurity-seeded plasma experiments on JET

G. P. Maddison; M. Brix; R. Budny; M. Charlet; I. Coffey; J. G. Cordey; P. Dumortier; S. K. Erents; N. C. Hawkes; M. Von Hellermann; D. L. Hillis; J. Hogan; L. D. Horton; L. C. Ingesson; S. Jachmich; G. L. Jackson; A. Kallenbach; H. R. Koslowski; K. D. Lawson; A. Loarte; G. F. Matthews; D. McDonald; G. R. McKee; A. Meigs; A. M. Messiaen; F. Milani; P. Monier-Garbet; M. Murakami; M. F.F. Nave; J. Ongena; M. E. Puiatti; E. Rachlew; J. Rapp; S. Sharapov; G. M. Staebler; M. Stamp; J. D. Strachan; W. Suttrop; G. Telesca; M. Z. Tokar; B. Unterberg; M. Valisa; K. D. Zastrow

doi:10.1088/0029-5515/43/1/306

Impurity-seeded plasma experiments on JET

G. P. Maddison
, M. Brix
, R. Budny
, M. Charlet
, I. Coffey
, J. G. Cordey
, P. Dumortier
, S. K. Erents
, N. C. Hawkes
, M. Von Hellermann
, D. L. Hillis
, J. Hogan
, L. D. Horton
, L. C. Ingesson
, S. Jachmich
, G. L. Jackson
, A. Kallenbach
, H. R. Koslowski
, K. D. Lawson
, A. Loarte

G. F. Matthews, D. McDonald, G. R. McKee, A. Meigs, A. M. Messiaen, F. Milani, P. Monier-Garbet, M. Murakami, M. F.F. Nave, J. Ongena, M. E. Puiatti, E. Rachlew, J. Rapp, S. Sharapov, G. M. Staebler, M. Stamp, J. D. Strachan, W. Suttrop, G. Telesca, M. Z. Tokar, B. Unterberg, M. Valisa, K. D. Zastrow

Laboratory for Plasma Physics

Culham Centre for Fusion Energy
FORSCHUNGSZENTRUM JULICH GMBH
Princeton Plasma Physics Laboratory
FOM-Instituut voor Plasmafysica 'Rijnhuizen'
Oak Ridge National Laboratory
Max-Planck-Institut für Plasmaphysik
DIII-D National Fusion Facility
EFDA CSU-Garching
University of Wisconsin-Madison
Commissariat à l'Énergie Atomique (CEA)
Instituto Superior Técnico
Consorzio Rfx
KTH Royal Institute of Technology

Résultats de recherche: Contribution à un journal › Article › Revue par des pairs

50 Citations (Scopus)

Résumé

Scaling to larger tokamaks of high confinement plasmas with radiating edges induced by impurities, is being studied through internationally collaborative experiments on JET. In campaigns till the end of 2000, three different regimes have been explored. A small number of limiter L-mode discharges seeded with neon have most closely repeated the approach used on TEXTOR-94, but different collisionality and particle transport in JET impede central peaking of the density associated with improved confinement. Divertor L-modes at intermediate density, again with neon injection, have pursued transiently enhanced states found on DIII-D. Confinement up to H-mode quality, together with radiation fractions of ≈40%, have briefly been obtained, though central Z_eff quickly increases. Most effectively, neon and argon seeding of higher density ELMy H-modes formed mainly at low triangularity on the septum of the MkIIGB divertor, resembling a pumped-limiter arrangement, have been examined. Good confinement has been sustained as densities close to the Greenwald level in 'afterpuff' (AP) phases following the end of main gas fuelling, for little change of central Z_eff but up to ≈60% radiation. Outstanding normalized properties up to H₉₇ = 0.99 at f_Gwd = 0.94 have thus been achieved, above the conventional H-mode density limit for diverted plasmas. Stationarity of states has also been extended to many energy confinement times by including low, extra gas inputs in the 'AP', suggestive of an optimized fuelling scheme. Further development in 2001 is reported separately in [1]. Accompanying ELMs are generally reduced in frequency though not evidently in size, electron pedestal pressure being almost unchanged from unseeded behaviour. There are indications of the most favourable impurity species scaling with plasma parameters, performance, radiation and its concentration with a mantle all increasing with argon compared to neon in JET. These benefits in terms of integrated properties are just as required for long burning pulses in ITER, supporting its use of a radiating mantle to assist not only power exhaust but performance too. Impurity-seeded H-modes can therefore contribute directly to next-step scenario development.

langue originale	Anglais
Pages (de - à)	49-62
Nombre de pages	14
journal	Nuclear Fusion
Volume	43
Numéro de publication	1
Les DOIs	https://doi.org/10.1088/0029-5515/43/1/306
état	Publié - janv. 2003

Accès au document

10.1088/0029-5515/43/1/306

Autres fichiers et liens

Lien vers la publication dans Scopus

Contient cette citation

Maddison, G. P., Brix, M., Budny, R., Charlet, M., Coffey, I., Cordey, J. G., Dumortier, P., Erents, S. K., Hawkes, N. C., Von Hellermann, M., Hillis, D. L., Hogan, J., Horton, L. D., Ingesson, L. C., Jachmich, S., Jackson, G. L., Kallenbach, A., Koslowski, H. R., Lawson, K. D., ... Zastrow, K. D. (2003). Impurity-seeded plasma experiments on JET. Nuclear Fusion, 43(1), 49-62. https://doi.org/10.1088/0029-5515/43/1/306

@article{abb50a6ff92648649d3088f86c89135e,

title = "Impurity-seeded plasma experiments on JET",

abstract = "Scaling to larger tokamaks of high confinement plasmas with radiating edges induced by impurities, is being studied through internationally collaborative experiments on JET. In campaigns till the end of 2000, three different regimes have been explored. A small number of limiter L-mode discharges seeded with neon have most closely repeated the approach used on TEXTOR-94, but different collisionality and particle transport in JET impede central peaking of the density associated with improved confinement. Divertor L-modes at intermediate density, again with neon injection, have pursued transiently enhanced states found on DIII-D. Confinement up to H-mode quality, together with radiation fractions of ≈40\%, have briefly been obtained, though central Zeff quickly increases. Most effectively, neon and argon seeding of higher density ELMy H-modes formed mainly at low triangularity on the septum of the MkIIGB divertor, resembling a pumped-limiter arrangement, have been examined. Good confinement has been sustained as densities close to the Greenwald level in 'afterpuff' (AP) phases following the end of main gas fuelling, for little change of central Zeff but up to ≈60\% radiation. Outstanding normalized properties up to H97 = 0.99 at fGwd = 0.94 have thus been achieved, above the conventional H-mode density limit for diverted plasmas. Stationarity of states has also been extended to many energy confinement times by including low, extra gas inputs in the 'AP', suggestive of an optimized fuelling scheme. Further development in 2001 is reported separately in [1]. Accompanying ELMs are generally reduced in frequency though not evidently in size, electron pedestal pressure being almost unchanged from unseeded behaviour. There are indications of the most favourable impurity species scaling with plasma parameters, performance, radiation and its concentration with a mantle all increasing with argon compared to neon in JET. These benefits in terms of integrated properties are just as required for long burning pulses in ITER, supporting its use of a radiating mantle to assist not only power exhaust but performance too. Impurity-seeded H-modes can therefore contribute directly to next-step scenario development.",

author = "Maddison, \{G. P.\} and M. Brix and R. Budny and M. Charlet and I. Coffey and Cordey, \{J. G.\} and P. Dumortier and Erents, \{S. K.\} and Hawkes, \{N. C.\} and \{Von Hellermann\}, M. and Hillis, \{D. L.\} and J. Hogan and Horton, \{L. D.\} and Ingesson, \{L. C.\} and S. Jachmich and Jackson, \{G. L.\} and A. Kallenbach and Koslowski, \{H. R.\} and Lawson, \{K. D.\} and A. Loarte and Matthews, \{G. F.\} and D. McDonald and McKee, \{G. R.\} and A. Meigs and Messiaen, \{A. M.\} and F. Milani and P. Monier-Garbet and M. Murakami and Nave, \{M. F.F.\} and J. Ongena and Puiatti, \{M. E.\} and E. Rachlew and J. Rapp and S. Sharapov and Staebler, \{G. M.\} and M. Stamp and Strachan, \{J. D.\} and W. Suttrop and G. Telesca and Tokar, \{M. Z.\} and B. Unterberg and M. Valisa and Zastrow, \{K. D.\}",

year = "2003",

month = jan,

doi = "10.1088/0029-5515/43/1/306",

language = "English",

volume = "43",

pages = "49--62",

journal = "Nuclear Fusion",

issn = "0029-5515",

number = "1",

}

Maddison, GP, Brix, M, Budny, R, Charlet, M, Coffey, I, Cordey, JG, Dumortier, P, Erents, SK, Hawkes, NC, Von Hellermann, M, Hillis, DL, Hogan, J, Horton, LD, Ingesson, LC, Jachmich, S, Jackson, GL, Kallenbach, A, Koslowski, HR, Lawson, KD, Loarte, A, Matthews, GF, McDonald, D, McKee, GR, Meigs, A, Messiaen, AM, Milani, F, Monier-Garbet, P, Murakami, M, Nave, MFF, Ongena, J, Puiatti, ME, Rachlew, E, Rapp, J, Sharapov, S, Staebler, GM, Stamp, M, Strachan, JD, Suttrop, W, Telesca, G, Tokar, MZ, Unterberg, B, Valisa, M & Zastrow, KD 2003, 'Impurity-seeded plasma experiments on JET', Nuclear Fusion, VOL. 43, Numéro 1, p. 49-62. https://doi.org/10.1088/0029-5515/43/1/306

TY - JOUR

T1 - Impurity-seeded plasma experiments on JET

AU - Maddison, G. P.

AU - Brix, M.

AU - Budny, R.

AU - Charlet, M.

AU - Coffey, I.

AU - Cordey, J. G.

AU - Dumortier, P.

AU - Erents, S. K.

AU - Hawkes, N. C.

AU - Von Hellermann, M.

AU - Hillis, D. L.

AU - Hogan, J.

AU - Horton, L. D.

AU - Ingesson, L. C.

AU - Jachmich, S.

AU - Jackson, G. L.

AU - Kallenbach, A.

AU - Koslowski, H. R.

AU - Lawson, K. D.

AU - Loarte, A.

AU - Matthews, G. F.

AU - McDonald, D.

AU - McKee, G. R.

AU - Meigs, A.

AU - Messiaen, A. M.

AU - Milani, F.

AU - Monier-Garbet, P.

AU - Murakami, M.

AU - Nave, M. F.F.

AU - Ongena, J.

AU - Puiatti, M. E.

AU - Rachlew, E.

AU - Rapp, J.

AU - Sharapov, S.

AU - Staebler, G. M.

AU - Stamp, M.

AU - Strachan, J. D.

AU - Suttrop, W.

AU - Telesca, G.

AU - Tokar, M. Z.

AU - Unterberg, B.

AU - Valisa, M.

AU - Zastrow, K. D.

PY - 2003/1

Y1 - 2003/1

N2 - Scaling to larger tokamaks of high confinement plasmas with radiating edges induced by impurities, is being studied through internationally collaborative experiments on JET. In campaigns till the end of 2000, three different regimes have been explored. A small number of limiter L-mode discharges seeded with neon have most closely repeated the approach used on TEXTOR-94, but different collisionality and particle transport in JET impede central peaking of the density associated with improved confinement. Divertor L-modes at intermediate density, again with neon injection, have pursued transiently enhanced states found on DIII-D. Confinement up to H-mode quality, together with radiation fractions of ≈40%, have briefly been obtained, though central Zeff quickly increases. Most effectively, neon and argon seeding of higher density ELMy H-modes formed mainly at low triangularity on the septum of the MkIIGB divertor, resembling a pumped-limiter arrangement, have been examined. Good confinement has been sustained as densities close to the Greenwald level in 'afterpuff' (AP) phases following the end of main gas fuelling, for little change of central Zeff but up to ≈60% radiation. Outstanding normalized properties up to H97 = 0.99 at fGwd = 0.94 have thus been achieved, above the conventional H-mode density limit for diverted plasmas. Stationarity of states has also been extended to many energy confinement times by including low, extra gas inputs in the 'AP', suggestive of an optimized fuelling scheme. Further development in 2001 is reported separately in [1]. Accompanying ELMs are generally reduced in frequency though not evidently in size, electron pedestal pressure being almost unchanged from unseeded behaviour. There are indications of the most favourable impurity species scaling with plasma parameters, performance, radiation and its concentration with a mantle all increasing with argon compared to neon in JET. These benefits in terms of integrated properties are just as required for long burning pulses in ITER, supporting its use of a radiating mantle to assist not only power exhaust but performance too. Impurity-seeded H-modes can therefore contribute directly to next-step scenario development.

AB - Scaling to larger tokamaks of high confinement plasmas with radiating edges induced by impurities, is being studied through internationally collaborative experiments on JET. In campaigns till the end of 2000, three different regimes have been explored. A small number of limiter L-mode discharges seeded with neon have most closely repeated the approach used on TEXTOR-94, but different collisionality and particle transport in JET impede central peaking of the density associated with improved confinement. Divertor L-modes at intermediate density, again with neon injection, have pursued transiently enhanced states found on DIII-D. Confinement up to H-mode quality, together with radiation fractions of ≈40%, have briefly been obtained, though central Zeff quickly increases. Most effectively, neon and argon seeding of higher density ELMy H-modes formed mainly at low triangularity on the septum of the MkIIGB divertor, resembling a pumped-limiter arrangement, have been examined. Good confinement has been sustained as densities close to the Greenwald level in 'afterpuff' (AP) phases following the end of main gas fuelling, for little change of central Zeff but up to ≈60% radiation. Outstanding normalized properties up to H97 = 0.99 at fGwd = 0.94 have thus been achieved, above the conventional H-mode density limit for diverted plasmas. Stationarity of states has also been extended to many energy confinement times by including low, extra gas inputs in the 'AP', suggestive of an optimized fuelling scheme. Further development in 2001 is reported separately in [1]. Accompanying ELMs are generally reduced in frequency though not evidently in size, electron pedestal pressure being almost unchanged from unseeded behaviour. There are indications of the most favourable impurity species scaling with plasma parameters, performance, radiation and its concentration with a mantle all increasing with argon compared to neon in JET. These benefits in terms of integrated properties are just as required for long burning pulses in ITER, supporting its use of a radiating mantle to assist not only power exhaust but performance too. Impurity-seeded H-modes can therefore contribute directly to next-step scenario development.

UR - https://www.scopus.com/pages/publications/0037269271

U2 - 10.1088/0029-5515/43/1/306

DO - 10.1088/0029-5515/43/1/306

M3 - Article

AN - SCOPUS:0037269271

SN - 0029-5515

VL - 43

SP - 49

EP - 62

JO - Nuclear Fusion

JF - Nuclear Fusion

IS - 1

ER -

Impurity-seeded plasma experiments on JET

Résumé

Accès au document

Autres fichiers et liens

Empreinte digitale

Contient cette citation