Test of accuracy of the generalized boundary conditions in the scattering by thin dielectric strips
2014 International Conference on Numerical Electromagnetic Modeling and Optimization for RF, Microwave, and Terahertz Applications, NEMO 2014
Institute of Electrical and Electronics Engineers Inc.
MetadataShow full item record
Please cite this item using this persistent URLhttp://hdl.handle.net/11693/26786
The two-dimensional (2D) scattering of the E and H-polarized plane electromagnetic waves by a free-standing thinner than the wavelength dielectric strip is considered numerically. Two methods are compared: singular integral equations (SIE) on the strip median line obtained from the generalized boundary conditions for a thin dielectric layer and Muller boundary integral equations (BIE) for arbitrarily thick strip. The comparison shows the domain of acceptable accuracy of approximate model derived for thin dielectric strips. © 2014 IEEE.
- Conference Paper 2294
Showing items related by title, author, creator and subject.
Validity of generalized boundary conditions and singular integral equation method in the scattering of light by thin dielectric strips Shapoval O.V.; Sukharevsky I.O.; Altintas, A. (IEEE Computer Society, 2014)We consider the two-dimensional (2D) scattering of a plane wave of light by a thin flat dielectric nanostrip. Empirical method of generalized boundary conditions and singular integral equations on the strip median line is ...
Validity and limitations of the median-line integral equation technique in the scattering by material strips of sub-wavelength thickness Sukharevsky I.O.; Shapoval O.V.; Altintas, A.; Nosich, A.I. (Institute of Electrical and Electronics Engineers Inc., 2014)Considered is the 2-D scattering of a plane wave by a thin flat material strip. The data obtained by using the empirical method of generalized boundary conditions and singular integral equations on the strip median line ...
Demir A.; Hanay M.S. (Institute of Electrical and Electronics Engineers Inc., 2017)We present a numerical modeling and simulation paradigm for multi-domain, multi-physics systems with components modeled both in a lumped and distributed manner. The lumped components are modeled with a system of ...