Article citationsMore>>
Rozhansky, V., Kaveeva, E., Voskoboynikov, S., Counsell, G., Kirk, A., Meyer, H., Coster, D., Conway, G., Schirmer, J., Schneider, R. and the ASDEX Upgrade Team (2006) Modelling of radial electric field profile for different divertor configurations. Plasma Physics and Controlled Fusion, 48, 1425-1435. doi:10.1088/0741-3335/48/9/011
has been cited by the following article:
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TITLE:
Impact of drifts in edge plasma of small size divertor tokamak
AUTHORS:
Amr H. Bekheit
KEYWORDS:
E × B Drift; Diamagnetic Drifts; B2SOLPS0.5.2D Fluid Transport Code
JOURNAL NAME:
Natural Science,
Vol.4 No.2,
February
22,
2012
ABSTRACT: The effect of poloidal E × B and diamagnetic drifts in edge plasma of Small Size Divertor (SSD) Tokamak is studied with two-dimensional B2SO- LPS-0.5.2D fluid transport code. The simulation results show the following: 1) For normal toroidal magnetic field, the increasing of core plasma density leads to large divertor asymmetries due to poloidal E × B and diamagnetic drifts. 2) Switching on the E × B and diamagnetic drifts leads to large change in poloidal distribution of radial electric field and induced counter-clockwise circulation (flow) around the x-point. 3) Switching on the E × B and diamagnetic drifts leads to the structure of poloidal distribution of radial electric field is nonmonotonic which responsible for negative spikes. 4) Switching on the E × B and diamagnetic drifts in vicinity of separatrix leads to the structure of poloidal distribution of radial electric field that has viscous layer. 5) Switching on the E × B and diamagnetic drifts results in torque generation. This torque spins up the toroidal rotation. 6) The E × B drift velocity depends on the plasma temperature heating and doesn't depend on plasma density.
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