S. Chen,Yongchun Zhou. SO-FDTD Analysis on Magnetized Plasma[J]. International Journal of Infrared and Millimeter Waves . 2007 (9)SO-FDTD Analysis on Magnetized Plasma[J] . Hongwei Yang,R. S. Chen,Yongchu
The high accuracy and efficiency of this method is verified by computing the reflection and transmission coefficients of electromagnetic wave through a collisional magnetized plasma slab in one dimension. The stealth effect of radar targets covered with Epstein distribution inhomogeneous magnetized plasma is...
The SO-FDTD formulation for anisotropic magnetized plasma is derived. The high efficiency and effectiveness of the method are confirmed by computing the reflection and transmission through a magnetized plasma layer, with the direction of the propagation parallel to the direction of the biasing field. ...
We calculate the interaction between the electromagnetic wave of various frequencies and non-magnetized plasma by using the parallel SO-FDTD method. Then, we compare the results???which are calculated with serial and parallel SO-FDTD executions to obtain the speedup ratio and validate the parallel ...
time-domain analysis/ high efficient SO-FDTD methodBased on the Maxwell formulae and the auxiliary differential equation of polarized current density, this paper presents a high efficient shift-operator finite difference time-domain (SO-FDTD) method for simulating magnetized cold plasma, which combines...
The absorption and reflection characteristics of high temperature magnetized plasma on electromagnetic wave are studied by using this improved CSO-FDTD method. The effects of external magnetic field and temperature on the attenuation coefficient and absorption coefficient of the plasma are discussed. A ...
The transmission characteristics of terahertz waves in inhomogeneous magnetized dusty plasma are studied by using the shift-operator finite-difference-time-domain (SO-FDTD) method. The Epstein distribution model is employed to simulate the electron density distribution in dusty plasmas. The results given...
X. YinH. ZhangZ.-W. ZhaoS.-J. SunJournal of Electromagnetic Waves and ApplicationsLiu, J. F., X. L. Xi, G. B. Wan, and L. L. Wang, "A high efficient SO-FDTD method for magnetized collisional plasma," Journal of Electromagnetic Waves and Applications, Vol. 26, Nos. 14-15, ...