Overview of transport, fast particle and heating and current drive physics using tritium in JET plasmas

D. Stork, Yu. Baranov, P. Belo, L. Bertalot, D. Borba, J.H. Brzozowski, C.D. Challis, D. Ciric, S. Conroy, M. De Baar, P. De Vries, P. Dumortier, L. Garzotti, N.C. Hawkes, T.C. Hender, E. Joffrin, T.T.C. Jones, V. Kiptily, P. Lamalle, J. MaillouxM. Mantsinen, D.C. McDonald, M.F.F. Nave, R. Neu, M. O'Mullane, J. Ongena, R.J. Pearce, S. Popovichev, S.E. Sharapov, M. Stamp, J. Stober, E. Surrey, M. Valovic, I. Voitsekhovitch, H. Weisen, A.D. Whiteford, L. Worth, V. Yavorskij, K.-D. Zastrow

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Abstract

Results are presented from the JET Trace Tritium Experimental (TTE) campaign using minority tritium (T) plasmas (nT/nD 2 MA) and monotonic q-profiles. In CH discharges the γ-ray emission decay times are much lower than classical (τTs+ταs), indicating alpha confinement degradation, due to the orbit losses and particle orbit drift predicted by a 3-D Fokker-Planck numerical code and modelled using TRANSP. © 2005 IAEA, Vienna.
Original languageEnglish
Pages (from-to)-
JournalNuclear Fusion
Volume45
Issue number10
DOIs
Publication statusPublished - 1 Oct 2005
Externally publishedYes

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All Science Journal Classification (ASJC) codes

  • Nuclear and High Energy Physics
  • Condensed Matter Physics

Cite this

Stork, D., Baranov, Y., Belo, P., Bertalot, L., Borba, D., Brzozowski, J. H., ... Zastrow, K-D. (2005). Overview of transport, fast particle and heating and current drive physics using tritium in JET plasmas. Nuclear Fusion, 45(10), -. https://doi.org/10.1088/0029-5515/45/10/S15