Add to ORKGThe neoclassical transport of impurities is investigated for a plasma without toroidal rotation nor anisotropic ion temperature. It is shown that a natural poloidal asymmetry of the impurity density exists in this case, and that it can be described with a simple analytical model. The poloidal asymmetry tends naturally to cancel as the impurity profile evolves towards its steady state, so that the main effect of the poloidal asymmetry is to slow down the impurity flux compared to its predicted value without poloidal asymmetry. The contribution of the asymmetries of the electrostatic potential and of the main ion density can be included in the analytical derivation, thus forming a self-consistent description of the neoclassical impurity flux ...
International audiencePoloidal asymmetries of impurities are commonly observed experimentally. Densi...
Poloidal asymmetries in the impurity density can be generated by radio frequency heating in the core...
If the density of the impurity ions is poloidally asymmetric then the zero-flux impurity density gra...
International audienceThe neoclassical transport of impurities is investigated for a plasma without ...
The effect of poloidal asymmetry of impurities on impurity transport driven by electrostatic turbule...
Poloidal asymmetries of impurities in tokamaks can arise due to toroidal rotation, neoclassical effe...
© 2001 American Institute of Physics. The electronic version of this article is the complete one and...
In the pedestal of a tokamak, the sharp radial gradients of density and temperature can give rise to...
Heavy impurities, such as tungsten (W), can exhibit strongly poloidally asymmetric density profiles ...
Impurities cause radiation losses and plasma dilution, and in stellarator plasmas the neoclassical a...
One of the principal problems en route to a fusion reactor is that of insufficient plasma confinemen...
The presence of impurity species in magnetic confinement fusion devices leads to radiation losses an...
International audiencePoloidal asymmetries of impurities are commonly observed experimentally. Densi...
Poloidal asymmetries in the impurity density can be generated by radio frequency heating in the core...
If the density of the impurity ions is poloidally asymmetric then the zero-flux impurity density gra...
International audienceThe neoclassical transport of impurities is investigated for a plasma without ...
The effect of poloidal asymmetry of impurities on impurity transport driven by electrostatic turbule...
Poloidal asymmetries of impurities in tokamaks can arise due to toroidal rotation, neoclassical effe...
© 2001 American Institute of Physics. The electronic version of this article is the complete one and...
In the pedestal of a tokamak, the sharp radial gradients of density and temperature can give rise to...
Heavy impurities, such as tungsten (W), can exhibit strongly poloidally asymmetric density profiles ...
Impurities cause radiation losses and plasma dilution, and in stellarator plasmas the neoclassical a...
One of the principal problems en route to a fusion reactor is that of insufficient plasma confinemen...
The presence of impurity species in magnetic confinement fusion devices leads to radiation losses an...
International audiencePoloidal asymmetries of impurities are commonly observed experimentally. Densi...
Poloidal asymmetries in the impurity density can be generated by radio frequency heating in the core...
If the density of the impurity ions is poloidally asymmetric then the zero-flux impurity density gra...