Title :
Numerical investigation of resonance diffraction characteristics of cascaded gratings (TM-case)
Author_Institution :
Phys. Mech. Inst., Acad. of Sci., Lviv, Ukraine
Abstract :
The problem of a plane wave scattering on a multielement diffraction grating is considered. The diffracted field is sought for as a single-layer potential. The technique of integration path deformation is utilized for Green function´s calculation. An accounting of a singularity of the integrand on a specially chosen part of the integration path is adopted to derive a numerical solution. To reduce the computation time for Sommerfeld-type integral calculations essentially a Lagrange-type interpolation polynomial of several variables is used. By an integration path deformation and accounting for residues from poles the estimation of the Green´s function at infinity is provided. A two-layered cascaded grating with two curvilinear screens on the period was considered
Keywords :
Green´s function methods; diffraction gratings; electromagnetic fields; electromagnetic wave diffraction; electromagnetic wave polarisation; electromagnetic wave scattering; inhomogeneous media; integration; interpolation; polynomials; resonance; Green function´s calculation; Lagrange-type interpolation polynomial; Sommerfeld-type integral; TM-polarisation; cascaded gratings; computation time reduction; curvilinear screens; diffracted field; integrand singularity; integration path deformation; numerical investigation; numerical solution; period; poles; resonance diffraction characteristics; single-layer potential; two-layered cascaded grating; Circuits; Convolution; Diffraction gratings; Electromagnetic diffraction; Electromagnetic scattering; H infinity control; Interpolation; Lagrangian functions; Polynomials; Resonance;
Conference_Titel :
Direct and Inverse Problems of Electromagnetic and Acoustic Wave Theory, 1998. DIPED-98. Proceedings of III International Seminar/Workshop on
Conference_Location :
Tbilisi
Print_ISBN :
966-02-0621-6
DOI :
10.1109/DIPED.1998.730939
