Title :
PPPS-2013: Ion-current FRC using a modified MHD model
Author :
Rahman, Hamood Ur ; Binderbauer, Michl W. ; Rostoker, Norman ; Wessel, Frank J.
Author_Institution :
Tri Alpha Energy, Foothill Ranch, CA, USA
Abstract :
Summary form only given. In the standard MHD formulation the effects of finite gyroradius and gyroperiod are usually absent. To include these effects we have modified MACH2, a 2D MHD code, and then simulated recent experiments performed at Tri Alpha Energy, Inc.1 and the University of CA, Irvine.2 In the experiments an azimuthal-electric field is produced by a flux coil that is co-axially located with the plasma.3 In the presence of a pre-formed, magnetized plasma the Eθ field induces a diamagnetic-plasma current that reverses the applied-magnetic field, forming a FRC. The simulations suggest that the azimuthal current is due initially to ion flow, until the FRC is formed, when the electrons are free to accelerate in the field-free region, near the magnetic-null. For the same set of initial parameters there is good agreement between the simulations and the experiments.
Keywords :
plasma magnetohydrodynamics; plasma simulation; plasma transport processes; 2D MHD code; azimuthal-electric field production; diamagnetic plasma azimuthal current; electron acceleration; finite gyroperiod effect; finite gyroradius effect; flux coil; ion flow; ion-current FRC; magnetic field; magnetic null; modified MACH2; modified MHD model; Acceleration; Azimuthal current; Coils; Magnetohydrodynamics; Plasmas; Standards;
Conference_Titel :
Plasma Science (ICOPS), 2013 Abstracts IEEE International Conference on
Conference_Location :
San Francisco, CA
DOI :
10.1109/PLASMA.2013.6633295
