Neoclassical transport in the presence of fluctuations
1992; IOP Publishing; Volume: 32; Issue: 8 Linguagem: Inglês
10.1088/0029-5515/32/8/i10
ISSN1741-4326
Autores Tópico(s)Laser-Plasma Interactions and Diagnostics
ResumoThe usual argument for automatic ambipolarity of neoclassical particle fluxes in a tokamak is based on the averaged toroidal momentum equation. It does not apply when fluctuations are present, because they also contribute to the momentum. The finite Larmor radius pressure tensor produced by electrostatic fluctuations makes a small contribution to the averaged momentum balance and also gives rise to a small nonambipolar radial flux. The (j × B)ϕ force from stochastic magnetic fluctuations can be much larger, as is the associated nonambipolar particle flux. The ambipolar electric field is determined by the combined neoclassical and anomalous fluxes. Since the transport produced by electrostatic fluctuations is nearly ambipolar, the resulting change in the radial electric field from its neoclassical value is small. However, electron loss along a stochastic magnetic field is strongly nonambipolar and can reduce or reverse the inward electric field produced by neoclassical transport alone. Impurity neoclassical transport is most sensitive to the electric field because of its high atomic charge. This can explain the observed pump-out of impurities during intense MHD activity
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