Gerhard Kristensson
Scattering of Electromagnetic Waves by Obstacles
Gerhard Kristensson
Scattering of Electromagnetic Waves by Obstacles
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This book is an introduction to some of the most important properties of electromagnetic waves and their interaction with passive materials and scatterers.
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This book is an introduction to some of the most important properties of electromagnetic waves and their interaction with passive materials and scatterers.
Produktdetails
- Produktdetails
- Electromagnetic Waves
- Verlag: Institution of Engineering & Technology
- Seitenzahl: 760
- Erscheinungstermin: 26. Juli 2016
- Englisch
- Abmessung: 262mm x 185mm x 45mm
- Gewicht: 1610g
- ISBN-13: 9781613532218
- ISBN-10: 1613532210
- Artikelnr.: 44638534
- Electromagnetic Waves
- Verlag: Institution of Engineering & Technology
- Seitenzahl: 760
- Erscheinungstermin: 26. Juli 2016
- Englisch
- Abmessung: 262mm x 185mm x 45mm
- Gewicht: 1610g
- ISBN-13: 9781613532218
- ISBN-10: 1613532210
- Artikelnr.: 44638534
Gerhard Kristensson is Professor Emeritus at Lund University, Sweden, where he held the Chair of Electromagnetic Theory for 25 years. He has served as a member of the Board for Editors of Wave Motion, the Editorial Board and the International Advisory Panel of Inverse Problems, and the Review Board of Journal of Electromagnetic Waves and Applications and Progress in Electromagnetic Research. He is a Fellow of the Institute of Physics, and during 2006-2014 he was the chairman of the Swedish National committee of Radio Science (SNRV) and official representative for Sweden in the International Union of Radio Science (URSI). Professor Kristensson has a general interest in electromagnetic scattering problems and wave propagation in inhomogeneous media.
Chapter 1: Basic Equations
Chapter 2: The Green Functions and Dyadics
Chapter 3: Integral Representation of Fields
Chapter 4: Introductory Scattering Theory
Chapter 5: Scattering in the Time Domain
Chapter 6: Approximations and Applications
Chapter 7: Spherical Vector Waves
Chapter 8: Scattering by Spherical Objects
Chapter 9: The Null-Field Approach
Chapter 10: Propagation in Stratified Media
Appendix A: Vectors and Linear Transformations
Appendix B: Bessel Functions
Appendix C: Spherical Harmonics
Appendix D: The Fourier and Other Transforms
Appendix E: Relativity
Appendix F: Some Useful Mathematical Results
Appendix G: Asymptotic Evaluation of Integrals
Appendix H: The Nabla Operator in Curvilinear Coordinate Systems
Appendix I: Notation
Appendix J: Units and Constants
Chapter 2: The Green Functions and Dyadics
Chapter 3: Integral Representation of Fields
Chapter 4: Introductory Scattering Theory
Chapter 5: Scattering in the Time Domain
Chapter 6: Approximations and Applications
Chapter 7: Spherical Vector Waves
Chapter 8: Scattering by Spherical Objects
Chapter 9: The Null-Field Approach
Chapter 10: Propagation in Stratified Media
Appendix A: Vectors and Linear Transformations
Appendix B: Bessel Functions
Appendix C: Spherical Harmonics
Appendix D: The Fourier and Other Transforms
Appendix E: Relativity
Appendix F: Some Useful Mathematical Results
Appendix G: Asymptotic Evaluation of Integrals
Appendix H: The Nabla Operator in Curvilinear Coordinate Systems
Appendix I: Notation
Appendix J: Units and Constants
Chapter 1: Basic Equations
Chapter 2: The Green Functions and Dyadics
Chapter 3: Integral Representation of Fields
Chapter 4: Introductory Scattering Theory
Chapter 5: Scattering in the Time Domain
Chapter 6: Approximations and Applications
Chapter 7: Spherical Vector Waves
Chapter 8: Scattering by Spherical Objects
Chapter 9: The Null-Field Approach
Chapter 10: Propagation in Stratified Media
Appendix A: Vectors and Linear Transformations
Appendix B: Bessel Functions
Appendix C: Spherical Harmonics
Appendix D: The Fourier and Other Transforms
Appendix E: Relativity
Appendix F: Some Useful Mathematical Results
Appendix G: Asymptotic Evaluation of Integrals
Appendix H: The Nabla Operator in Curvilinear Coordinate Systems
Appendix I: Notation
Appendix J: Units and Constants
Chapter 2: The Green Functions and Dyadics
Chapter 3: Integral Representation of Fields
Chapter 4: Introductory Scattering Theory
Chapter 5: Scattering in the Time Domain
Chapter 6: Approximations and Applications
Chapter 7: Spherical Vector Waves
Chapter 8: Scattering by Spherical Objects
Chapter 9: The Null-Field Approach
Chapter 10: Propagation in Stratified Media
Appendix A: Vectors and Linear Transformations
Appendix B: Bessel Functions
Appendix C: Spherical Harmonics
Appendix D: The Fourier and Other Transforms
Appendix E: Relativity
Appendix F: Some Useful Mathematical Results
Appendix G: Asymptotic Evaluation of Integrals
Appendix H: The Nabla Operator in Curvilinear Coordinate Systems
Appendix I: Notation
Appendix J: Units and Constants