Isotope effects on intrinsic rotation in hydrogen, deuterium and tritium plasmas

Isotope effects on intrinsic rotation in hydrogen, deuterium and tritium plasmas

The isotope effect on intrinsic rotation was studied at the JET tokamak. With the unique capability of JET to operate with Tritium, for the first time, experiments in Hydrogen, Deuterium and Tritium in ohmic plasmas were compared. Two rotation reversals per isotope type are observed in plasma densit...

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Bibliographische Detailangaben
1. Verfasser: M. F. F. Nave, E. Delabie, J. Ferreira, J. Garcia, D. King, M. Lennholm, B. Lomanowski, F. Parra, P. Rodriguez- Fernandez, J. Bernardo, M. Baruzzo, M. Barnes, F. Casson, J.C. Hillesheim, A. Hubber, E. Joffrin, A. Kappatou, C. F. Maggi, A. Mauriya, L. Meneses, M. Romanelli, F. Salzedas, , Jet Contributors
Format: Dataset
Sprache:eng
Schlagworte:
Isotope effect
JET
momentum
Physics
rotation
transport
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Zusammenfassung:The isotope effect on intrinsic rotation was studied at the JET tokamak. With the unique capability of JET to operate with Tritium, for the first time, experiments in Hydrogen, Deuterium and Tritium in ohmic plasmas were compared. Two rotation reversals per isotope type are observed in plasma density scans spanning the linear and the saturated Ohmic confinement regimes. A clear isotope mass dependence is observed at the higher densities. The magnitude of the core rotation was found to depend on isotope mass, with stronger co-current rotation observed in hydrogen. Change on intrinsic rotation characteristics coexist with a stronger thermal energy confinement in Tritium.
DOI:10.7910/dvn/62hzu2