Choosing the appropriate computational method for a photonics problem requires a clear understanding of the pros and cons of the available numerical methods. This book presents six of the most frequently used methods: FDTD, FDFD, 1+1D nonlinear propagation, modal method, Green's function, and FEM. Each method is accompanied by a review of the mathematical principles in which it is based, along with sample scripts, illustrative examples of characteristic problem solving, and exercises. MATLAB® is used throughout the text.
Choosing the appropriate computational method for a photonics problem requires a clear understanding of the pros and cons of the available numerical methods. This book presents six of the most frequently used methods: FDTD, FDFD, 1+1D nonlinear propagation, modal method, Green's function, and FEM. Each method is accompanied by a review of the mathematical principles in which it is based, along with sample scripts, illustrative examples of characteristic problem solving, and exercises. MATLAB® is used throughout the text.
Andrei V. Lavrinenko, Technical University of Denmark, Kongens Lyngby Jesper Lægsgaard, Technical University of Denmark, Kongens Lyngby Niels Gregersen, Technical University of Denmark, Kongens Lyngby Frank Schmidt, Zuse Institute, Berlin, Germany Thomas Søndergaard, Aalborg University, Denmark
Inhaltsangabe
Introduction. Maxwell's Equations. FDTD. Finite-Difference Modeling of Straight Waveguides. Modeling of Nonlinear Propagation in Waveguides. The Modal Method. Green's Function Integral Equation Methods for Electromagnetic Scattering Problems. Finite Element Method.
Introduction. Maxwell's Equations. FDTD. Finite-Difference Modeling of Straight Waveguides. Modeling of Nonlinear Propagation in Waveguides. The Modal Method. Green's Function Integral Equation Methods for Electromagnetic Scattering Problems. Finite Element Method.
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