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El. knyga: Electromagnetic Anisotropy And Bianisotropy: A Field Guide (Second Edition)

(Pennsylvania State Univ, Usa), (Univ Of Edinburgh, Uk & Pennsylvania State Univ, Usa)
  • Formatas: 288 pages
  • Išleidimo metai: 23-Apr-2019
  • Leidėjas: World Scientific Publishing Co Pte Ltd
  • Kalba: eng
  • ISBN-13: 9789811203152
Kitos knygos pagal šią temą:
Electromagnetic Anisotropy And Bianisotropy: A Field Guide (Second Edition)Didesnis paveikslėlis
  • Formatas: 288 pages
  • Išleidimo metai: 23-Apr-2019
  • Leidėjas: World Scientific Publishing Co Pte Ltd
  • Kalba: eng
  • ISBN-13: 9789811203152
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The aim of this book is to extend and update the standard treatments of crystal optics found in classical textbooks. It provides a broad overview of electromagnetic anisotropy, bianisotropy, and chirality. The topics covered are constitutive relations (Chapter 1); examples of anisotropy, bianisotropy, and chirality (Chapter 2); spacetime symmetries (Chapter 3); planewave propagation (Chapter 4); dyadic Green functions including depolarization dyadics (Chapter 5); homogenization formalisms (Chapter 6); nonlinear aspects (Chapter 7); surface waves (Chapter 8) and topological insulators (Chapter9). New additions in this second edition are: Chapters 8 and9, expanded treatments of active mediums in Chapter 4, and the Huygens principle and the Ewald-Oseen extinction theorem in Chapter 5. This book is perfect for post baccalaureate students and researchers seeking an introductory survey of the electromagnetic theory of complex mediums.

Frontispiece v
Prologue vi
Dedication vii
Preface ix
Acknowledgments xiv
Acronyms and Principal Symbols xv
1 The Maxwell Postulates and Constitutive Relations
1(158)
1.1 From microscopic to macroscopic
1(3)
1.2 Boundary conditions
4(3)
1.3 Constitutive relations
7(1)
1.4 The frequency domain
8(4)
1.5 6-vector/6 × 6 dyadic notation
12(1)
1.6 Form invariances
13(7)
1.6.1 Time reversal
13(2)
1.6.2 Spatial inversion
15(1)
1.6.3 Lorentz covariance
15(1)
1.6.4 Chiral invariance
16(2)
1.6.5 Conjugate invariance
18(1)
1.6.6 Energy and momentum
19(1)
1.7 Constitutive dyadics
20(139)
1.7.1 Constraints
21(3)
1.7.2 Specializations
24(135)
6 Homogenization
159(24)
6.1 Constituent mediums
160(2)
6.2 Maxwell Garnett formalism
162(2)
6.3 Bruggeman formalism
164(2)
6.4 Strong-property-fluctuation theory
166(4)
6.4.1 Background
166(1)
6.4.2 Estimates of constitutive parameters
167(3)
6.5 Extended homogenization formalisms
170(3)
6.6 Anisotropy and bianisotropy via homogenization
173(1)
6.7 Homogenized composite mediums as metamaterials
173(10)
7 Nonlinear Mediums
183(26)
7.1 Constitutive relations
183(2)
7.2 Homogenization
185(18)
7.2.1 Maxwell Garnett formalism
185(2)
7.2.2 Strong-property-fluctuation theory
187(16)
7.3 Nonlinearity enhancement
203(1)
7.4 Quantum electrodynamic vacuum
204(5)
8 Electromagnetic Surface Waves
209(30)
8.1 Simple surface wave
210(4)
8.1.1 Canonical boundary-value problem
210(2)
8.1.2 Practical configurations
212(2)
8.2 Classifications of electromagnetic surface waves
214(5)
8.2.1 SPP waves
214(1)
8.2.2 Uller-Zenneck waves
215(1)
8.2.3 Dyakonov waves
216(1)
8.2.4 Tamm waves
217(1)
8.2.5 Dyakonov-Tamm waves
218(1)
8.2.6 Other surface waves
219(1)
8.3 Theoretical analysis of surface-wave propagation
219(20)
8.3.1 Homogeneous bianisotropic medium
220(1)
8.3.2 Periodically nonhomogeneous bianisotropic medium
221(2)
8.3.3 Canonical boundary-value problem
223(1)
8.3.4 Prism-coupled configuration
224(5)
8.3.5 Grating-coupled configuration
229(10)
9 Topological Insulators
239(14)
9.1 Macroscopic representations
240(1)
9.2 Scattering problems
241(7)
9.2.1 Planewave reflection from a half-space
241(2)
9.2.2 Scattering by a sphere
243(5)
9.3 Left/right asymmetries
248(2)
9.3.1 Planewave reflection and transmission
248(1)
9.3.2 Surface-wave propagation
249(1)
9.4 Practicalities of topological insulation
250(3)
Appendix A: Dyadic Notation and Analysis 253(2)
Epilogue 255(2)
Index 257(5)
About the authors 262
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