Time domain electromagnetics

Time domain electromagnetics

Time Domain Electromagnetics deals with a specific technique in electromagnetics within the general area of electrical engineering. This mathematical method has become a standard for a wide variety of applications for design and problem solving. This method of analysis in electromagnetics is directl...

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Detalles Bibliográficos
Otros Autores: Rao, S. M. (Sadasiva Madiraju), 1953- (-)
Formato: Libro electrónico
Idioma:Inglés
Publicado: San Diego : Academic Press c1999.
Edición:1st edition
Colección:Academic Press series in engineering.
Materias:
Electromagnetism > Mathematics.
Time-domain analysis.
Integral equations > Numerical solutions.
Differential equations > Numerical solutions.
Ver en Biblioteca Universitat Ramon Llull:https://discovery.url.edu/permalink/34CSUC_URL/1im36ta/alma991009627296406719
Tabla de Contenidos:
  • Front Cover; Time Domain Electromagnetics; Copyright Page; Contents; Preface; Acknowledgments; Contributors; Chapter 1. Introduction; 1.1 An Initial Exploration of Time Domain Phenomena; 1.2 Modeling Choices in CEM; 1.3 General Aspects of Time Domain Modeling; 1.4 Time Domain Integral Equation Modeling; 1.5 Time Domain Differential Equation Modeling; 1.6 Specific Issues Related to Time Domain Modeling; 1.7 Concluding Remarks; Acknowledgments; Bibliography; Chapter 2. Wire Structures: TDIE Solution; 2.1 Basic Analysis; 2.2 Analysis of a Straight Wire; 2.3 Analysis of an Arbitrary Wire
  • 2.4 Implicit Solution Scheme2.5 Analysis of Multiple Wires and Wire Junctions; 2.6 Concluding Remarks; Bibliography; Chapter 3. Infinite Conducting Cylinders: TDIE Solution; 3.1 Integral Equation Formulation; 3.2 Discretization Scheme; 3.3 TM Incidence: EFIE Formulation; 3.4 TE Incidence: EFIE Formulation; 3.5 TE Incidence: HFIE Formulation; 3.6 Concluding Remarks; Bibliography; Chapter 4. Finite Conducting Bodies: TDIE Solution; 4.1 Integral Equation Formulation; 4.2 Numerical Solution Scheme; 4.3 Far-Scattered Fields; 4.4 Near-Scattered Fields; 4.5 Extrapolation of Time Domain Response
  • 4.6 Concluding RemarksBibliography; Chapter 5. Dielectric Bodies: TDIE Solution; 5.1 Integral Equation Formulation; 5.2 Two-Dimensional Cylinders; 5.3 Three-Dimensional Bodies; 5.4 Numerical Examples; 5.5 Concluding Remarks; Bibliography; Chapter 6. Finite-Difference Time Domain Method; 6.1 Introduction to FDTD; 6.2 Pulse Propagation in a Lossy, Inhomogeneous, Layered Medium; 6.3 Remote Sensing of Inhomogeneous, Lossy, Layered Media; 6.4 Key Elements of FDTD Modeling Theory; 6.5 FDTD Formulation for Two-Dimensional Closed-Region Problems
  • 6.6 FDTD Formulation for Two-Dimensional Open-Region Problems6.7 Plane Wave Source Condition; 6.8 Near- to Far-Field Transformation; 6.9 FDTD Modeling of Curved Surfaces; 6.10 FDTD Formulation for Three-Dimensional Closed-Region Problems; 6.11 FDTD Formulation for Three-Dimensional Open-Region Problems; 6.12 Near- to Far-Field Transformation for the Three-Dimensional Case; 6.13 Computer Resources and ModeUng Implications; 6.14 Concluding Remarks; Acknowledgments; Bibliography; Chapter 7. Transmission Line Modeling Method; 7.1 The Two-Dimensional TLM; 7.2 Three-Dimensional TLM
  • 7.3 Special Features in TLM7.4 Numerical Examples; 7.5 Concluding Remarks; Bibliography; Chapter 8. Finite-Element Time Domain Method; 8.1 Introduction; 8.2 Transverse Magnetic Case; 8.3 Transverse Electric Case; 8.4 Concluding Remarks; Bibliography; Chapter 9. Finite-Volume Time Domain Method; 9.1 Maxwell's Equations as a Hyperbolic Conservative System; 9.2 Finite-Volume Discretization of Maxwell's Equations; 9.3 Hybridization of the FVTD Method with Other Models and Methods; 9.4 Numerical Examples; 9.5 Concluding Remarks; Acknowledgments; Bibliography; Index

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