Shadow Theory of Diffraction Grating: A Numerical Example for TE Wave
スポンサーリンク
概要
- 論文の詳細を見る
By use of the shadow theory developed recently, this paper deals with the transverse electric (TE) wave diffraction by a perfectly conductive periodic array of rectangular grooves. A set of equations for scattering factors and mode factors are derived and solved numerically. In terms of the scattering factors, diffraction amplitudes and diffraction efficiencies are calculated and shown in figures. It is demonstrated that diffraction efficiencies become discontinuous at an incident wave number where the incident wave is switched from a propagating wave to an evanescent one, whereas scattering factors and diffraction amplitudes are continuous even at such an incident wave number.
- The Institute of Electronics,Information and Communication Engineersの論文
- 2009-03-01
著者
-
NAKAYAMA Junichi
Graduate School of Engineering and Resource Science, Akita University
-
TAMURA Yasuhiko
Graduate School of Engineering and Design, Kyoto Institute of Technology
-
Junichi NAKAYAMA
Graduate School of Engineering and Design, Kyoto Institute of Technology
-
Nakayama Junichi
Graduate School Of Engineering And Design Kyoto Institute Of Technology
-
Tamura Yasuhiko
Graduate School Of Engineering And Design Kyoto Institute Of Technology
-
Nakayama Junichi
Kyoto Inst. Of Technol. Kyoto‐shi Jpn
-
TSUTSUMI Kiyoshi
Graduate School of Engineering and Design, Kyoto Institute of Technology
-
Tamura Yasuhiko
Kyoto Inst. Of Technol. Kyoto‐shi Jpn
-
Tsutsumi Kiyoshi
Graduate School Of Engineering And Design Kyoto Institute Of Technology
-
Tamura Yasuhiko
Graduate School Of Engineering And Design Kyoto Inst. Of Technol.
-
Yasuhiko TAMURA
Graduate School of Engineering and Design, Kyoto Institute of Technology
-
Kiyoshi TSUTSUMI
Graduate School of Engineering and Design, Kyoto Institute of Technology
関連論文
- Methanol Oxidation Activities of Pt Oxide Thin Films Prepared by Reactive Sputtering
- TE Plane Wave Reflection and Transmission from a Two-Dimensional Random Slab
- Shadow Theory of Diffraction Grating
- A Further Improved Technique on the Stochastic Functional Approach for Randomly Rough Surface Scattering ——Analytical-Numerical Wiener Analysis——
- Shadow Theory of Diffraction Grating
- Shadow Theory of Diffraction Grating: A Numerical Example for TE Wave
- Low Grazing Scattering from a Surface with a Finite Periodic Array of Rectangular Grooves
- Scattering of TM Plane Wave from Periodic Grating with Single Defect
- Low Grazing Scattering from Periodic Neumann Surface with Finite Extent
- Diffraction Amplitudes from Periodic Neumann Surface : Low Grazing Limit of Incidence (III)(Electromagnetic Theory)
- Diffraction amplitudes from a periodic Neumann surface:Low grazing limit of incidence(II)
- Diffraction amplitudes from a periodic Neumann surface:Low grazing limit of incidence
- TE Plane Wave Reflection and Transmission from a One-Dimensional Random Slab(Electromagnetic Theory)
- Scattering of a TM wave from a periodic surface with finite extent:Undersampling approximation
- TE Plane Wave Reflection and Transmission from a Two-Dimensional Random Slab
- Low Grazing Scattering from Sinusoidal Neumann Surface with Finite Extent : Total Scattering Cross Section
- Low Grazing Scattering from Sinusoidal Neumann Surface with Finite Extent : Undersampling Approximation
- Scattering of a TM plane wave from a periodic surface with finite extent: Perturbation solution
- TM Plane Wave Reflection and Transmission from a One-Dimensional Random Slab
- Scattering of TE plane wave from periodic grating with single defect
- Reflection, Diffraction and Scattering at Low Grazing Angle of Incidence: Regular and Random Systems
- TE Plane Wave Scattering and Diffraction from a Periodic Surface with Semi-infinite Extent
- Method of Image Green's Function in Grating Theory
- TE Plane Wave Reflection and Transmission from a Two-Dimensional Random Slab : Slanted Fluctuation
- Method of Image Green's Function in Grating Theory: TE Wave Case
- Method of Image Green's Function in Grating Theory: Reflection Extinction Theorem
- Method of Image Green's Function in Grating Theory: Extinction Error Field
- Low Grazing Scattering from Sinusoidal Neumann Surface with Finite Extent: Total Scattering Cross Section
- TM plane wave reflection and transmission from a thin film with one-dimensional disorder : Enhanced scattering
- Shadow Theory of Diffraction Grating: Reciprocity, Symmetry and Average Filter