Green's Function Integral Equation Methods in Nano-Optics
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Green's Function Integral Equation Methods in Nano-Optics
Sondergaard, Thomas M.
Taylor & Francis Inc
01/2019
418
Dura
Inglês
9780815365969
15 a 20 dias
739
Descrição não disponível.
Introduction. Theoretical Foundation. One-dimensional Scattering Problems. Surface Integral Equation Method for 2D Scattering Problems. Area Integral Equation Method for 2D Scattering Problems. Volume Integral Equation Method for 3D Scattering Problems. Volume Integral Equation Method for Cylindrically Symmetric Structures. Surface Integral Equation Method for 3D scattering Problems. Chapter A: Residue Theorem. Chapter B: Conjugate Gradient Algorithm. Chapter C: Generalized Minimum Residual Algorithm. Chapter D: Bessel Functions. Chapter E: Analytic Scattering from a Cylinder and a Sphere. Chapter F: Calculating Guided Modes of Planar Waveguides. References.
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Magnetic Field Integral Equations;Poynting vector;Optical Cross-section Spectra;Maxwell equations;FFT Algorithm;Iterative FFT-based approach;Rigorous Coupled Wave Analysis;Reflection and transmission matrices;Green's Function;eigenfunctions;Optical Cross Sections;Polarization-insensitive broadband absorption, cylindrical harmonics;Photonic Crystal Cavity;Quasistatic Limit;Quasi-static Limit;Integral Equations;Magnetic Surface Currents;Photonic Crystal;Green's Tensor;Surface Integral Equations;Spherical Silver Particle;Absorption Cross Section;Spp Excitation;Matrix Vector Products;Thin Film Solar Cells;Extinction Cross Sections;Tangential Unit Vectors;SPPs;Quadratic Expansion;Scatterer Surface;Incident Field
Introduction. Theoretical Foundation. One-dimensional Scattering Problems. Surface Integral Equation Method for 2D Scattering Problems. Area Integral Equation Method for 2D Scattering Problems. Volume Integral Equation Method for 3D Scattering Problems. Volume Integral Equation Method for Cylindrically Symmetric Structures. Surface Integral Equation Method for 3D scattering Problems. Chapter A: Residue Theorem. Chapter B: Conjugate Gradient Algorithm. Chapter C: Generalized Minimum Residual Algorithm. Chapter D: Bessel Functions. Chapter E: Analytic Scattering from a Cylinder and a Sphere. Chapter F: Calculating Guided Modes of Planar Waveguides. References.
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Magnetic Field Integral Equations;Poynting vector;Optical Cross-section Spectra;Maxwell equations;FFT Algorithm;Iterative FFT-based approach;Rigorous Coupled Wave Analysis;Reflection and transmission matrices;Green's Function;eigenfunctions;Optical Cross Sections;Polarization-insensitive broadband absorption, cylindrical harmonics;Photonic Crystal Cavity;Quasistatic Limit;Quasi-static Limit;Integral Equations;Magnetic Surface Currents;Photonic Crystal;Green's Tensor;Surface Integral Equations;Spherical Silver Particle;Absorption Cross Section;Spp Excitation;Matrix Vector Products;Thin Film Solar Cells;Extinction Cross Sections;Tangential Unit Vectors;SPPs;Quadratic Expansion;Scatterer Surface;Incident Field
