Your search keyword '"Yi-ping Han"' showing total 2 results

1. A DISPERSIVE CONFORMAL FDTD TECHNIQUE FOR ACCURATE MODELING ELECTROMAGNETIC SCATTERING OF THZ WAVES BY INHOMOGENEOUS PLASMA CYLINDER ARRAY

Author

Yi Ping Han, Xia Ai, Zhiwei Cui, Xiaowei Shi, and Yuan Tian

Subjects

Physics, Plasma antenna, Radiation, Scattering, business.industry, Forward scatter, Terahertz radiation, Finite-difference time-domain method, Plasma, Condensed Matter Physics, Electromagnetic radiation, Optics, Cylinder, Electrical and Electronic Engineering, business

Abstract

A dispersive conformal FDTD method has been proposed to accurately model the interface between two adjacent dispersive mediums and implemented to study the scattering of THz electromag- netic (EM) waves by inhomogeneous collisional plasma cylinder array. The method is based on the technology of area average, which is dif- ferent from existing dispersive conformal FDTD schemes. Numerical results show that the proposed method enhances the accuracy level compared to the staircasing FDTD scheme involved in the inhomoge- neous plasma. It is interesting to flnd that the THz EM waves can propagate through the plasma array more easily with higher frequen- cies or larger separations, hence the scattering width in the backward direction becomes smaller, and the forward scattering exhibits a little difierent. This study will be useful for further designing intelligent plasma antenna arrays in the THz band and terahertz reentry teleme- try through plasma.

Published

2013

2. A DISPERSIVE CONFORMAL FDTD TECHNIQUE FOR ACCURATE MODELING ELECTROMAGNETIC SCATTERING OF THZ WAVES BY INHOMOGENEOUS PLASMA CYLINDER ARRAY.

Author

Xia Ai, Yuan Tian, Zhi Wei Cui, Yi Ping Han, and Xiao Wei Shi

Subjects

CONFORMAL antennas, FINITE difference time domain method, ELECTROMAGNETIC wave scattering, ELECTROMAGNETIC waves, PLASMA cylinders

Abstract

A dispersive conformal FDTD method has been proposed to accurately model the interface between two adjacent dispersive mediums and implemented to study the scattering of THz electromag- netic (EM) waves by inhomogeneous collisional plasma cylinder array. The method is based on the technology of area average, which is dif- ferent from existing dispersive conformal FDTD schemes. Numerical results show that the proposed method enhances the accuracy level compared to the staircasing FDTD scheme involved in the inhomoge- neous plasma. It is interesting to find that the THz EM waves can propagate through the plasma array more easily with higher frequen- cies or larger separations, hence the scattering width in the backward direction becomes smaller, and the forward scattering exhibits a little different. This study will be useful for further designing intelligent plasma antenna arrays in the THz band and terahertz reentry teleme- try through plasma. [ABSTRACT FROM AUTHOR]

Published

2013