Title :
Multiple Scattering by Parallel Plasma Cylinders
Author :
Xiao-Po Wu ; Jia-Ming Shi ; Jia-Chun Wang
Author_Institution :
Inf. Dept., Beijing, China
Abstract :
Multiple scattering by plasma cylinders with a plane wave is investigated rigorously by applying boundary value method that verifies validity with finite element method simultaneously, based upon the properties of electromagnetic wave transmitted in the argon plasma by cathode discharge. Approximate expressions for the far field, considering the interaction between the plasma cylinders, are derived briefly after some mathematical manipulations. Sample numerical results are presented for the cases of different plasma densities, different plasma collisions, and incidence with different striking angles, frequencies, and dissimilar forms of plasma arrays. Comparisons of the scattering distributions are given in detail to demonstrate the characteristics of plasma arrays.
Keywords :
argon; boundary-value problems; discharges (electric); finite element analysis; plasma collision processes; plasma density; plasma electromagnetic wave propagation; Ar; argon plasma; boundary-value method; cathode discharge; electromagnetic wave properties; finite element method; multiple scattering; numerical method; parallel plasma cylinders; plasma arrays; plasma collision; plasma density; plasma interaction; plasma plane wave; scattering distribution; striking angle; Electromagnetic scattering; Electromagnetics; Finite element analysis; Partial differential equations; Plasma density; Boundary value method (BVM); multiple scattering; plasma cylinders;
Journal_Title :
Plasma Science, IEEE Transactions on
DOI :
10.1109/TPS.2013.2278893
