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Drift Waves in General Toroidal Geometry


Author: J.L.V. Lewandowski

Date of PPPL Report: February 2000

Published in: Phys. Plasmas 7 (August 2000) 3360-3368. (Title changed to: Drift Wave Simulations in Stellarator Geometry.)

A model, based on gyro-kinetic ions and fluid electrons, to study drift waves in low-beta [beta = (kinetic pressure)/(magnetic pressure)] stellarator plasmas is presented. The model equations are written in straight-field-line coordinates and are valid for arbitrary, fully three-dimensional configurations with closed, nested magnetic surfaces. An implicit method, coupled with a subcycling technique for the electrons, is used to solve the time-dependent, along-the-field-line equations. Numerical calculations are carried out for a 3-field-period toroidal heliac. The geometrical effects that enter the model equations are calculated and displayed in physical space using advanced visualization techniques.






   
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