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| 作者简介:CHRISTOPHE CALOZ, PhD, is a Professor at the École Polytechnique de Montréal and a member of the university's Poly-Grames Research Center. Dr. Caloz has authored or coauthored more than one hundred technical conference and journal papers, and three book chapters. He is also the holder of several patents as well as the Canada Research Chair. |
| Preface Acknowledgments Acronyms 1 Introduction 1.1 Definition of Metamaterials (MTMs) and Left-Handed (LH) MTMs, 1.2 Theoretical Speculation by Viktor Veselago, 1.3 Experimental Demonstration of Left-Handedness, 1.4 Further Numerical and Experimental Confirmations, 1.5 "Conventional" Backward Waves and Novelty of LH MTMs, 1.6 Terminology, 1.7 Transmission Line (TL) Approach, 1.8 Composite Right/Left-Handed (CRLH) MTMs, 1.9 MTMs and Photonic Band-Gap (PBG) Structures, 1.10 Historical "Germs" of MTMs, References, 2 Fundamentals of LH MTMs 2.1 Left-Handedness from Maxwell's Equations, 2.2 Entropy Conditions in Dispersive Media, 2.3 Boundary Conditions. 2.4 Reversal of Doppler Effect, 2.5 Reversal of Vavilov-Cerenkov Radiation, 2.6 Reversal of Snell's Law: Negative Refraction, 2.7 Focusing by a "Flat LH Lens", 2.8 Fresnel Coefficients, 2.9 Reversal of Goos-Hanchen Effect, 2.10 Reversal of Convergence and Divergence in Convex and Concave Lenses, 2.11 Subwavelength Diffraction, References, 3 TL Theory of MTMs 3.1 Ideal Homogeneous CRLH TLs, 3.1.1 Fundamental TL Characteristics, 3.1.2 Equivalent MTM Constitutive Parameters, 3.1.3 Balanced and Unbalanced Resonances, 3.1.4 Lossy Case, 3.2 LC Network Implementation, 3.2.1 Principle, 3.2.2 Difference with Conventional Filters, 3.2.3 Transmission Matrix Analysis, 3.2.4 Input Impedance, 3.2.5 Cutoff Frequencies, 3.2.6 Analytical Dispersion Relation, 3.2.7 Bloch Impedance, 3.2.8 Effect of Finite Size in the Presence of Imperfect Matching, 3.3 Real Distributed ID CRLH Structures, 3.3.1 General Design Guidelines, 3.3.2 Microstrip Implementation, 3.3.3 Parameters Extraction, 3.4 Experimental Transmission Characteristics, 3.5 Conversion from Transmission Line to Constitutive Parameters,References, 4 two-Dimensional MTMs 4.l Eigenvalue Problem, 4.1.1 General Matrix System, 4.1.2 CRLH Particularization, 4.1.3 Lattice Choice, Symmetry Points, Brillouin Zone, and 2D Dispersion Representations, 4.2 Driven Problem by the Transmission Matrix Method (TMM), 4.2.1 Principle of the TMM, 4.2.2 Scattering Parameters, …… 5 Guided-Wave Applications 6 Radiated-Wave Applications 7 The Future of MTMs Index |
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