G. Corrigan scite author profile

The dependence of plasma transport and confinement on the main hydrogenic ion isotope mass is of fundamental importance for understanding turbulent transport and, therefore, for accurate extrapolations of confinement from present tokamak experiments, which typically use a single hydrogen isotope, to burning plasmas such as ITER, which will operate in deuterium-tritium mixtures. Knowledge of the dependence of plasma properties and edge transport barrier formation on main ion species is critical in view of the initial, low-activation phase of ITER operations in hydrogen or helium and of its implications on the subsequent operation in deuterium-tritium. The favourable scaling of global energy confinement time with isotope mass, which has been observed in many tokamak experiments, remains largely unexplained theoretically. Moreover, the mass scaling observed in experiments varies depending on the plasma edge conditions. In preparation for upcoming deuterium-tritium experiments in the JET tokamak with the ITER-like Be/W Wall (JET-ILW), a thorough experimental investigation of isotope effects in hydrogen, deuterium and tritium plasmas is being carried out, in order to provide stringent tests of plasma energy, particle and momentum transport models. Recent hydrogen and deuterium isotope experiments in JET-ILW on L-H power threshold, L-mode and H-mode confinement are reviewed and discussed in the context of past and more recent isotope experiments in tokamak plasmas, highlighting common elements as well as contrasting observations that have been reported. The experimental findings are discussed in the context of fundamental aspects of plasma transport models.

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Models and Numerics in the Multi‐Fluid 2‐D Edge Plasma Code EDGE2D/U

Simonini

Corrigan

Radford

et al. 1994

Contrib. Plasma Phys.

235

189

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JINTRAC: A System of Codes for Integrated Simulation of Tokamak Scenarios

Romanelli

Corrigan

Parail

et al. 2014

Plasma and Fusion Research

167

172

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Evidence of Inward Toroidal Momentum Convection in the JET Tokamak

Tala

Zastrow

Ferreira³

et al. 2009

Phys. Rev. Lett.

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G. Corrigan

Isotope effects on L-H threshold and confinement in tokamak plasmas

Models and Numerics in the Multi‐Fluid 2‐D Edge Plasma Code EDGE2D/U

JINTRAC: A System of Codes for Integrated Simulation of Tokamak Scenarios

Evidence of Inward Toroidal Momentum Convection in the JET Tokamak

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