Isotope effect allows fusion devices to perform better when heavier hydrogen isotopes are used as fuel, but the reason for this improvement is not yet understood. We present the first direct evidence of the isotope effect on particle confinement in the FT-2 tokamak and investigate it via gyrokinetic simulations. Experimental measurements for comparable hydrogen and deuterium discharges show that the particle confinement time increases by 40% for the heavier isotope species. The isotope effect on particle flux is reproduced in global and local gyrokinetic simulations. Global ELMFIRE simulations demonstrate a systemic reduction in particle fluxes across the radial range, showing a ratio of fluxes at the edge and at . Local GENE simulations agree qualitatively with the result. Besides the fluctuation level, smaller scales and a favorable shift in the cross-phase between the turbulent fluctuations are found to contribute to the isotope effect in the simulations.
SormenjälkiSukella tutkimusaiheisiin 'Gyrokinetic characterization of the isotope effect in turbulent transport at the FT-2 tokamak'. Ne muodostavat yhdessä ainutlaatuisen sormenjäljen.
Simulations of turbulence-flow interplay in tokamak plasmas - Gyrokinetic studies of isotope effect on turbulent transport and flows in Ohmic discharges
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