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Particle transport in density gradient driven TE mode turbulence
The turbulent transport of main ion and trace impurities in a tokamak device
in the presence of steep electron density gradients has been studied. The
parameters are chosen for trapped electron (TE) mode turbulence, driven
primarily by steep electron density gradients relevant to H-mode physics, but
with a transition to temperature gradient driven turbulence as the density
gradient flattens. Results obtained through non-linear (NL) and quasilinear
(QL) gyrokinetic simulations using the GENE code are compared with results
obtained from a fluid model. Main ion and impurity transport is studied by
examining the balance of convective and diffusive transport, as quantified by
the density gradient corresponding to zero particle flux (peaking factor).
Scalings are obtained for the impurity peaking with the background electron
density gradient and the impurity charge number. It is shown that the impurity
peaking factor is weakly dependent on impurity charge and significantly smaller
than the driving electron density gradient.Comment: 11 pages, 6 figures. Submitted to Nuclear Fusion SP
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