Adventures in Contemporary Electromagnetic Theory
Herausgegeben:Mackay, Tom G.; Lakhtakia, Akhlesh
Adventures in Contemporary Electromagnetic Theory
Herausgegeben:Mackay, Tom G.; Lakhtakia, Akhlesh
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This book describes the most recent advances in electromagnetic theory, motivated and partly informed by developments in engineering science and nanotechnology. The collection of chapters provided in this edited book, authored by leading experts in the field, offers a bird's eye view of recent progress in electromagnetic theory, spanning a wide range of topics of current interest, ranging from fundamental issues to applications.
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This book describes the most recent advances in electromagnetic theory, motivated and partly informed by developments in engineering science and nanotechnology. The collection of chapters provided in this edited book, authored by leading experts in the field, offers a bird's eye view of recent progress in electromagnetic theory, spanning a wide range of topics of current interest, ranging from fundamental issues to applications.
Produktdetails
- Produktdetails
- Verlag: Springer / Springer International Publishing / Springer, Berlin
- Artikelnr. des Verlages: 978-3-031-24616-6
- 2023
- Seitenzahl: 560
- Erscheinungstermin: 1. August 2023
- Englisch
- Abmessung: 241mm x 160mm x 36mm
- Gewicht: 998g
- ISBN-13: 9783031246166
- ISBN-10: 3031246160
- Artikelnr.: 66766503
- Verlag: Springer / Springer International Publishing / Springer, Berlin
- Artikelnr. des Verlages: 978-3-031-24616-6
- 2023
- Seitenzahl: 560
- Erscheinungstermin: 1. August 2023
- Englisch
- Abmessung: 241mm x 160mm x 36mm
- Gewicht: 998g
- ISBN-13: 9783031246166
- ISBN-10: 3031246160
- Artikelnr.: 66766503
Tom G. Mackay is a graduate of the Universities of Edinburgh, Glasgow, and Strathclyde. His university education was supported by the British Heart Foundation and The Carnegie Trust for The Universities of Scotland. He is Professor of Applied Electromagnetic Theory in the School of Mathematics at the University of Edinburgh, and also an adjunct professor in the Department of Engineering Science and Mechanics at The Pennsylvania State University. In 2006/07 he held a Royal Society of Edinburgh/Scottish Executive Support Research Fellowship and in 2009/2010 a Royal Academy of Engineering/Leverhulme Trust Senior Research Fellowship. He is a Fellow of the Institute of Physics (UK), Optica (formerly Optical Society of America) and SPIE-The International Society for Optics and Photonics. His research interests are based on the electromagnetic theory of complex mediums, including homogenization and surface waves. Akhlesh Lakhtakia is Evan Pugh University Professor and Charles Godfrey Binder (Endowed) Professor of Engineering Science and Mechanics at The Pennsylvania State University. He received his B.Tech. (1979) and D.Sc. (2006) degrees in Electronics Engineering from the Institute of Technology, Banaras Hindu University, and his M.S. (1981) and Ph.D. (1983) degrees in Electrical Engineering from the University of Utah. He was the Editor-in-Chief of the Journal of Nanophotonics from its inception in 2007 through 2013. He has been elected a Fellow of the American Association for the Advancement of Sciences, American Physical Society, Institute of Physics (UK), Optical Society of America, SPIE--The International Society for Optics and Photonics, Institute of Electrical and Electronics Engineers, Royal Society of Chemistry, and Royal Society of Arts. His current research interests relate to electromagnetic fields in complex mediums, sculptured thin films, surface multiplasmonics and electromagnetic surface waves, mimumes, multicontrollable metasurfaces, thin-film solar cells, forensic science, bioreplication, engineered biomimicry, and biologically inspired design for environment. He has co-edited three research volumes published by Springer.
Introduction.- 1. Our Werner always brought us joy.- 2. Scalar potentials and applications.- 3. A novel approach to electromagnetic constitutive relations.- 4. On the anatomy of Voigt plane waves.- 5. Electromagnetic radiation by finite-sized electric and magnetic dipoles embedded in homogeneous uniaxial dielectric materials.- 6. Near-field microwave imaging employing measured point-spread functions.- 7. Electromagnetic wave propagation inside rectangular chirowaveguides using the coupled mode method.- 8. On a Steklov spectrum in electromagnetics.- 9. Using boundary conditions with the Ewald-Oseen extinction theorem.- 10. Spatial sampling and interpolation techniques in computational electromagnetics and beyond.- 11. Light-matter interaction at the sub-wavelength scale: Pathways to design nanophotonic devices.- 12. Integrated photonics with near-zero index materials.- 13. Correlated disorder in broadband dielectric multilayered reflectors.- 14. Scattering from reconfigurable metasurfaces and their applications.- 15. Specular reflection and transmission of electromagnetic waves by disordered metasurfaces.- 16. Continuity of field patterns for exceptional surface waves and exceptional compound waves.- 17. Cavity modes and surface plasmon waves coupling on nanostructured surfaces for enhanced sensing and energy applications.- 18. Analysis of diffraction from all-dielectric gratings using entire-domain integralequation techniques.- 19. Rigorous coupled-wave approach and transformation optics.- 20. Mind the gap between theory and experiment.- 21. Theoretical future - Vision 2030.
Introduction.- 1. Our Werner always brought us joy.- 2. Scalar potentials and applications.- 3. A novel approach to electromagnetic constitutive relations.- 4. On the anatomy of Voigt plane waves.- 5. Electromagnetic radiation by finite-sized electric and magnetic dipoles embedded in homogeneous uniaxial dielectric materials.- 6. Near-field microwave imaging employing measured point-spread functions.- 7. Electromagnetic wave propagation inside rectangular chirowaveguides using the coupled mode method.- 8. On a Steklov spectrum in electromagnetics.- 9. Using boundary conditions with the Ewald–Oseen extinction theorem.- 10. Spatial sampling and interpolation techniques in computational electromagnetics and beyond.- 11. Light-matter interaction at the sub-wavelength scale: Pathways to design nanophotonic devices.- 12. Integrated photonics with near-zero index materials.- 13. Correlated disorder in broadband dielectric multilayered reflectors.- 14. Scattering from reconfigurable metasurfaces and their applications.- 15. Specular reflection and transmission of electromagnetic waves by disordered metasurfaces.- 16. Continuity of field patterns for exceptional surface waves and exceptional compound waves.- 17. Cavity modes and surface plasmon waves coupling on nanostructured surfaces for enhanced sensing and energy applications.- 18. Analysis of diffraction from all-dielectric gratings using entire-domain integralequation techniques.- 19. Rigorous coupled-wave approach and transformation optics.- 20. Mind the gap between theory and experiment.- 21. Theoretical future — Vision 2030.
Introduction.- 1. Our Werner always brought us joy.- 2. Scalar potentials and applications.- 3. A novel approach to electromagnetic constitutive relations.- 4. On the anatomy of Voigt plane waves.- 5. Electromagnetic radiation by finite-sized electric and magnetic dipoles embedded in homogeneous uniaxial dielectric materials.- 6. Near-field microwave imaging employing measured point-spread functions.- 7. Electromagnetic wave propagation inside rectangular chirowaveguides using the coupled mode method.- 8. On a Steklov spectrum in electromagnetics.- 9. Using boundary conditions with the Ewald-Oseen extinction theorem.- 10. Spatial sampling and interpolation techniques in computational electromagnetics and beyond.- 11. Light-matter interaction at the sub-wavelength scale: Pathways to design nanophotonic devices.- 12. Integrated photonics with near-zero index materials.- 13. Correlated disorder in broadband dielectric multilayered reflectors.- 14. Scattering from reconfigurable metasurfaces and their applications.- 15. Specular reflection and transmission of electromagnetic waves by disordered metasurfaces.- 16. Continuity of field patterns for exceptional surface waves and exceptional compound waves.- 17. Cavity modes and surface plasmon waves coupling on nanostructured surfaces for enhanced sensing and energy applications.- 18. Analysis of diffraction from all-dielectric gratings using entire-domain integralequation techniques.- 19. Rigorous coupled-wave approach and transformation optics.- 20. Mind the gap between theory and experiment.- 21. Theoretical future - Vision 2030.
Introduction.- 1. Our Werner always brought us joy.- 2. Scalar potentials and applications.- 3. A novel approach to electromagnetic constitutive relations.- 4. On the anatomy of Voigt plane waves.- 5. Electromagnetic radiation by finite-sized electric and magnetic dipoles embedded in homogeneous uniaxial dielectric materials.- 6. Near-field microwave imaging employing measured point-spread functions.- 7. Electromagnetic wave propagation inside rectangular chirowaveguides using the coupled mode method.- 8. On a Steklov spectrum in electromagnetics.- 9. Using boundary conditions with the Ewald–Oseen extinction theorem.- 10. Spatial sampling and interpolation techniques in computational electromagnetics and beyond.- 11. Light-matter interaction at the sub-wavelength scale: Pathways to design nanophotonic devices.- 12. Integrated photonics with near-zero index materials.- 13. Correlated disorder in broadband dielectric multilayered reflectors.- 14. Scattering from reconfigurable metasurfaces and their applications.- 15. Specular reflection and transmission of electromagnetic waves by disordered metasurfaces.- 16. Continuity of field patterns for exceptional surface waves and exceptional compound waves.- 17. Cavity modes and surface plasmon waves coupling on nanostructured surfaces for enhanced sensing and energy applications.- 18. Analysis of diffraction from all-dielectric gratings using entire-domain integralequation techniques.- 19. Rigorous coupled-wave approach and transformation optics.- 20. Mind the gap between theory and experiment.- 21. Theoretical future — Vision 2030.