International audienceAbstract Impurity transport is numerically investigated for different types of impurity, such as helium (He), argon (Ar), and tungsten (W). Both turbulent and neoclassical transports are treated self-consistently using the full- f gyrokinetic software GYSELA. For a light impurity (He), the transport is mainly controlled by turbulence, while neoclassical transport is found to be dominant in the case of a heavy impurity (W). The impact of a poloidal asymmetry of the impurity density is also studied in detail and it is found to be strong in case of a high charge impurity, due to its Boltzmann-type response. Such strong asymmetry might lead to a core accumulation of heavy impurities by reducing the thermal screening factor...
Impurity transport driven by electrostatic turbulence is analyzed in weakly-collisional tokamak plas...
Impurity transport driven by electrostatic turbulence is analyzed in weakly collisional tokamak plas...
Impurity transport is an issue of utmost importance for tokamaks. One reason is the choice of tungst...
International audienceAbstract Impurity transport is numerically investigated for different types of...
International audienceTrace impurity transport is studied with the flux-driven gyrokinetic GYSELA co...
International audienceIn gyrokinetic simulations of turbulent impurity transport, trace impurity spe...
Impurity transport in tokamaks is studied using an electrostatic fluid model for main ion and impuri...
Gyrokinetic simulations of ion temperature gradient mode and trapped electron mode driven impurity t...
Carbon and nitrogen impurity transport coefficients are determined from gas puff experiments carried...
With the enormous growth of high performance computing (HPC) over the last few decades, plasma physi...
Nuclear fusion is foreseen as one of the options for future energy production. In establishing the p...
International audienceAccurately predicting turbulent light impurity transport in tokamaks has been ...
With the enormous growth of high performance computing (HPC) over the last few decades, plasma physi...
Impurity transport driven by electrostatic turbulence is analyzed in weakly-collisional tokamak plas...
Impurity transport driven by electrostatic turbulence is analyzed in weakly collisional tokamak plas...
Impurity transport is an issue of utmost importance for tokamaks. One reason is the choice of tungst...
International audienceAbstract Impurity transport is numerically investigated for different types of...
International audienceTrace impurity transport is studied with the flux-driven gyrokinetic GYSELA co...
International audienceIn gyrokinetic simulations of turbulent impurity transport, trace impurity spe...
Impurity transport in tokamaks is studied using an electrostatic fluid model for main ion and impuri...
Gyrokinetic simulations of ion temperature gradient mode and trapped electron mode driven impurity t...
Carbon and nitrogen impurity transport coefficients are determined from gas puff experiments carried...
With the enormous growth of high performance computing (HPC) over the last few decades, plasma physi...
Nuclear fusion is foreseen as one of the options for future energy production. In establishing the p...
International audienceAccurately predicting turbulent light impurity transport in tokamaks has been ...
With the enormous growth of high performance computing (HPC) over the last few decades, plasma physi...
Impurity transport driven by electrostatic turbulence is analyzed in weakly-collisional tokamak plas...
Impurity transport driven by electrostatic turbulence is analyzed in weakly collisional tokamak plas...
Impurity transport is an issue of utmost importance for tokamaks. One reason is the choice of tungst...