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Recent improvements in confinement and beta in the MST reversed-field pinch
- Source :
- Nuclear fusion 47 (2007): L17–L20. doi:10.1088/0029-5515/47/9/L01, info:cnr-pdr/source/autori:D.J. Den Hartog1; J.-W. Ahn1; A.F. Almagri1; J.K. Anderson1; A.D. Beklemishev2; A.P. Blair1; F. Bonomo3; M.T. Borchardt1; D.L. Brower4; D.R. Burke1; M. Cengher1; B.E. Chapman1; S. Choi1; D.J. Clayton1; W.A. Cox1; S.K. Combs5; D. Craig1; H.D. Cummings1; V.I. Davydenko2; D.R. Demers6; B.H. Deng4; W.X. Ding4; F. Ebrahimi1; D.A. Ennis1; G. Fiksel1; C. Foust5; C.B. Forest1; P. Franz3; L. Frassinetti3; S. Gangadhara1; J.A. Goetz1; R.W. Harvey1; D.J. Holly1; B.F. Hudson1; A.A. Ivanov2; M.C. Kaufman1; A.V. Kuritsyn1; A.A. Lizunov2; T.W. Lovell1; R.M. Magee1; L. Marrelli3; P. Martin3; K.J. McCollam1; M.C. Miller1; V.V. Mirnov1; P.D. Nonn1; R. O'Connell1; S.P. Oliva1; P. Piovesan3; S.C. Prager1; I. Predebon3; J.A. Reusch1; J.S. Sarff1; V.A. Svidzinski1; T.D. Tharp1; M.A. Thomas1; Yu.A. Tsidulko2; M.D. Wyman1; T. Yates4/titolo:Recent improvements in confinement and beta in the MST reversed-field pinch/doi:10.1088%2F0029-5515%2F47%2F9%2FL01/rivista:Nuclear fusion/anno:2007/pagina_da:L17/pagina_a:L20/intervallo_pagine:L17–L20/volume:47
- Publication Year :
- 2007
- Publisher :
- International Atomic Energy Agency / IAEA:PO Box 100, A-1400 Vienna Austria:011 43 1 260022529, 011 43 1 260022530, EMAIL: sales.publications@iaea.org, n.mskara@iaea.org, INTERNET: http://www.iaea.org/worldatom/books, Fax: 011 43 1 260029302, 2007.
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Abstract
- In the general area of confinement improvement and concept advancement, recent results in the Madison Symmetric Torus (MST) reversed-field pinch (RFP) include good confinement of both thermal and large-orbit ions and near doubling of total beta to 26% with deuterium pellet injection. Current profile control enables MST to reduce stochastic transport and achieve tokamak-like confinement. In standard RFP operation, substantial MHD tearing mode activity results in stochastic transport and an energy confinement time of about 1 ms in MST. Application of inductive current profile control reduces MHD activity and accompanying stochasticity, improving confinement by about a factor of ten. Previous work concentrated on electron confinement in improved-confinement RFP operation. Recent work confirms that ions are also well confined, and that high beta and improved confinement can be achieved simultaneously. PACS numbers: 52.55.Hc, 52.55.Dy (Some figures in this article are in colour only in the electronic version)
Details
- Language :
- English
- Database :
- OpenAIRE
- Journal :
- Nuclear fusion 47 (2007): L17–L20. doi:10.1088/0029-5515/47/9/L01, info:cnr-pdr/source/autori:D.J. Den Hartog1; J.-W. Ahn1; A.F. Almagri1; J.K. Anderson1; A.D. Beklemishev2; A.P. Blair1; F. Bonomo3; M.T. Borchardt1; D.L. Brower4; D.R. Burke1; M. Cengher1; B.E. Chapman1; S. Choi1; D.J. Clayton1; W.A. Cox1; S.K. Combs5; D. Craig1; H.D. Cummings1; V.I. Davydenko2; D.R. Demers6; B.H. Deng4; W.X. Ding4; F. Ebrahimi1; D.A. Ennis1; G. Fiksel1; C. Foust5; C.B. Forest1; P. Franz3; L. Frassinetti3; S. Gangadhara1; J.A. Goetz1; R.W. Harvey1; D.J. Holly1; B.F. Hudson1; A.A. Ivanov2; M.C. Kaufman1; A.V. Kuritsyn1; A.A. Lizunov2; T.W. Lovell1; R.M. Magee1; L. Marrelli3; P. Martin3; K.J. McCollam1; M.C. Miller1; V.V. Mirnov1; P.D. Nonn1; R. O'Connell1; S.P. Oliva1; P. Piovesan3; S.C. Prager1; I. Predebon3; J.A. Reusch1; J.S. Sarff1; V.A. Svidzinski1; T.D. Tharp1; M.A. Thomas1; Yu.A. Tsidulko2; M.D. Wyman1; T. Yates4/titolo:Recent improvements in confinement and beta in the MST reversed-field pinch/doi:10.1088%2F0029-5515%2F47%2F9%2FL01/rivista:Nuclear fusion/anno:2007/pagina_da:L17/pagina_a:L20/intervallo_pagine:L17–L20/volume:47
- Accession number :
- edsair.doi.dedup.....289e50e52050b72596a5143d273b2217
- Full Text :
- https://doi.org/10.1088/0029-5515/47/9/L01