Plasma confinement in JET H mode plasmas with H, D, DT and T isotopes

J.g Cordey ,W Kerner ,L D Horton ,F Rimini ,D.f.h Start ,J Christiansen ,J.C.M De J.C.M De Haas,B Schunke ,G D Conway ,R.d Monk ,G Fishpool ,P Nielsen ,P.j Harbour ,D.v Bartlett ,K Thomsen ,M Stamp ,G Saibene ,J Jacquinot ,C Gowers ,C Lowry ,R Budny ,A Howman ,L.‐G Eriksson ,Roger Smith ,R Sartori ,B.j.d Tubbing ,B Balet ,E Righi ,A C C Sips ,M G Von Hellermann

doi:10.1088/0029-5515/39/3/301

Plasma confinement in JET H mode plasmas with H, D, DT and T isotopes

J.g Cordey , W Kerner + Show 28 more

https://doi.org/10.1088/0029-5515/39/3/301

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Journal: Nuclear Fusion	Publication Date: Mar 1, 1999
Citations: 92

Affiliation: Joint European Torus, Princeton Plasma Physics Laboratory, Princeton University

#Energy Confinement Time #Isotope Mass + Show 8 more

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Abstract

The scaling of the energy confinement in H mode plasmas with different hydrogenic isotopes (hydrogen, deuterium, DT and tritium) is investigated in JET. For ELM-free H modes the thermal energy confinement time τth is found to decrease weakly with the isotope mass (τth ∼M-0.25±0.22), whilst in ELMy H modes the energy confinement time shows practically no mass dependence (τth ∼M0.03±0.1). Detailed local transport analysis of the ELMy H mode plasmas reveals that the confinement in the edge region increases strongly with the isotope mass, whereas the confinement in the core region decreases with mass (τthcore ∝ M-0.16), in approximate agreement with theoretical models of the gyro-Bohm type (τgB ∼M-0.2).

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