Theory of Edge Diffraction in Electromagnetics: Origination and Validation of the Physical Theory of Diffraction
Ufimtsev, Pyotr Yakovlevich
Theory of Edge Diffraction in Electromagnetics: Origination and Validation of the Physical Theory of Diffraction - Scitech Publishing Inc. 2009 - 422p
Diffraction of Electromagnetic Waves at Black Bodies: Generalization of Kirchhoff-Kottler Theory Edge Diffraction at Convex Perfectly Conducting Bodies: Elements of the Physical Theory of Diffraction Edge Diffraction at Concave Surfaces: Extension of the Physical Theory of Diffraction Measurement of Radiation from Diffraction / Nonuniform Currents Analysis of Wedge Diffraction Using the Parabolic Equation Method Current Waves on Thin Conductors and Strips Radiation of Edge Waves: Theory Based on the Reciprocity Theorem Functional and Integral Equations for Strip Diffraction (Neumann Boundary Problem) Asymptotic Representation for the Current Density on a Strip Asymptotic Representation for the Scattering Pattern Plane Wave Diffraction at a Strip Oriented in the Direction of Polarization (Dirichlet Boundary Problem) Edge Diffraction at Open-Ended Parallel Plate Resonator Conclusions References Appendix: Relationships between the Gaussian System (GS) and the System International (SI) for Electromagnetic Units Index
9789746521109 0.00
Electrical Engineering
621.3015118 / UFI
Theory of Edge Diffraction in Electromagnetics: Origination and Validation of the Physical Theory of Diffraction - Scitech Publishing Inc. 2009 - 422p
Diffraction of Electromagnetic Waves at Black Bodies: Generalization of Kirchhoff-Kottler Theory Edge Diffraction at Convex Perfectly Conducting Bodies: Elements of the Physical Theory of Diffraction Edge Diffraction at Concave Surfaces: Extension of the Physical Theory of Diffraction Measurement of Radiation from Diffraction / Nonuniform Currents Analysis of Wedge Diffraction Using the Parabolic Equation Method Current Waves on Thin Conductors and Strips Radiation of Edge Waves: Theory Based on the Reciprocity Theorem Functional and Integral Equations for Strip Diffraction (Neumann Boundary Problem) Asymptotic Representation for the Current Density on a Strip Asymptotic Representation for the Scattering Pattern Plane Wave Diffraction at a Strip Oriented in the Direction of Polarization (Dirichlet Boundary Problem) Edge Diffraction at Open-Ended Parallel Plate Resonator Conclusions References Appendix: Relationships between the Gaussian System (GS) and the System International (SI) for Electromagnetic Units Index
9789746521109 0.00
Electrical Engineering
621.3015118 / UFI