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Computer techniques for electromagnetics /
Computer Techniques for Electromagnetics discusses the ways in which computer techniques solve practical problems in electromagnetics. It discusses the impact of the emergence of high-speed computers in the study of electromagnetics. This text provides a brief background on the approaches used by ma...
| Clasificación: | Libro Electrónico |
|---|---|
| Autor principal: | |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
Oxford ; New York /
Pergamon Press,
[1973]
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| Edición: | [1st ed.]. |
| Colección: | International series of monographs in electrical engineering ;
v. 7. |
| Temas: | |
| Acceso en línea: | Texto completo |
Tabla de Contenidos:
- Front Cover; Computer Techniques for Electromagnetics; Copyright Page; Table of Contents; PREFACE; Chapter 1. A BRIEF PREVIEW; References; Chapter 2. WIRE ANTENNAS; 2.1. Introduction; 2.2. Integral Equations for Wire Antennas; 2.3. Method of Moments; 2.4. Bases; 2.5. Calculation of Antenna Characteristics; 2.6. The Yagi-Uda Array; 2.7. Electrically Small Antennas; 2.8. Modeling of Wire Antennas on Metallic Bodies; 2.9. Conclusions and Acknowledgment; 2.10. Exercises; Appendix I: Fields of a Magnetic Frill Current; Appendix II: Calculation of Characteristic Mode Currents.
- Appendix III: Fortran IV Program for Wire Antennas on Metallic BodiesReferences; Chapter 3. NUMERICAL SOLUTION OF ELECTROMAGNETIC SCATTERING PROBLEMS; 3.1. Introduction; 3.2. Theory; 3.3. Organization of the Computer Program; Appendix I: The Fortran IV Program Listing; References; Chapter 4. INTEGRAL EQUATION SOLUTIONS OF THREEDIMENSIONAL SCATTERING PROBLEMS; 4.1. Introduction; 4.2. The Integral Equations of Electromagnetic Theory; 4.3. Numerical Solution Methods; 4.4. Applications; 4.5. Concluding Remarks; References; Chapter 5. VARIATIONAL AND ITERATIVE METHODS FOR WAVEGUIDES AND ARRAYS.
- 5.1. Scattering from an Infinite Grating of Metallic Strips5.2. Variational Principle, Method of Moments and Iterative Methods; 5.3. Step Discontinuity in Circular Waveguides (Mode Conversion Applications); 5.4. Transition Between a Straight and a Continuously Curved Waveguide; 5.5. Dielectric Slab-covered Waveguide Antenna; 5.6. Double Discontinuity Problems; 5.7. Concluding Remarks; Appendix: Convergence Test and the Relative Convergence Problem; References; Chapter 6. SOME NUMERICALLY EFFICIENT METHODS; 6.1. Introduction; 6.2. Analysis of Microstrip Lines; 6.3. Diffraction Grating.
- 6.4. Dielectric Step in a Waveguide6.5. The Generalized Scattering Matrix Method for Solving Discontinuity Problems; References; Problems; Chapter 7. INVERSE SCATTERING AND REMOTE PROBING; 7.1. Introduction; 7.2. The Two-dimensional Inverse Scattering Problem; 7.3. Remote Probing of Antenna Apertures by Holographic Techniques; 7.4. Antenna Power Pattern Synthesis; 7.5. Remote Probing of Inhomogeneous Media; 7.6. Numerical Aspects of Wavefront Reconstruction Using Matrix Methods; Appendix A: Optimization Methods; Appendix B: The Use of the Fast Fourier Transform Algorithm; References; Index.