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Preface | p. ix |
About the Editors | p. xi |
Contributors | p. xiii |
Linear and Nonlinear Metamaterials and Transformation Optics | |
Introduction | p. 2 |
Magnetic and Negative-Index Metamaterials at Optical Frequencies | p. 3 |
Loss Management and Nonlinear Optics in Metamaterials | p. 8 |
Numerical Modeling and Optimization Methods | p. 13 |
Gradient-Index Metamaterials and Transformation Optics | p. 15 |
Summary | p. 23 |
Fabrication of Optical Metamaterials | |
Introduction | p. 29 |
First Experimental Demonstrations: Single Metamaterial Layer | p. 33 |
Fabrication of 2D Metamaterials | p. 34 |
Fabrication of 3D Metamaterials | p. 40 |
Thin Metal Film Deposition | p. 48 |
Discussion | p. 49 |
Microwave Metamaterials: Selected Features and Sample Applications | |
Introduction | p. 59 |
Metamaterial Technology at Microwaves | p. 61 |
Waveguides | p. 62 |
Antennas | p. 65 |
Plasmonic Cloaking | p. 75 |
Supercoupling | p. 77 |
Conclusions | p. 79 |
Dielectric Metamaterials | |
Introduction | p. 85 |
Deeply Subwavelength Scale | p. 87 |
Quantum Wires: Subwavelength-Scale Metamaterials | p. 101 |
Discussions and Future Perspectives | p. 120 |
Metamaterials with Optical Gain | |
Introduction | p. 129 |
Surface Plasmons, Metamaterials, and Optical Loss | p. 130 |
Gain One Solution to the Loss Problem and Active Metamaterials: Theoretical Proposals and Concepts | p. 132 |
Experimental Demonstrations of Metamaterials and Plasmonic Structures with Gain | p. 141 |
Summary | p. 156 |
Anisotropic and Hyperbolic Metamaterials | |
Introduction | p. 163 |
Effective-Medium Response of Anisotropic Metamaterials | p. 164 |
Optical Response of Bulk Anisotropic Metamaterials | p. 170 |
Waveguiding with Anisotropic Metamaterials | p. 181 |
Beyond Effective Medium Response of Anisotropic Composites | p. 196 |
Summary | p. 202 |
Radiative Decay Engineering in Metamaterials | |
Introduction | p. 209 |
Field of an Electric Dipole | p. 210 |
Reflection and Transmission of Dipole Radiation | p. 214 |
Radiative Lifetime and Spontaneous Decay Rates | p. 217 |
Conclusion | p. 221 |
Bianisotropic and Chiral Metamaterials | |
Introduction | p. 225 |
Phenomenological Effective-Parameter Treatment | p. 227 |
Split-Ring Resonators as a Model System | p. 238 |
Experimental Status | p. 242 |
Spatial Dispersion and Effective Constitutive Parameters of Electromagnetic Metamaterials | |
Introduction | p. 258 |
Spatial Dispersion at the Smallest Spatial Scale: The Electrostatic Approach | p. 260 |
Electrodynamic Calculation of the Full CPM of Metamaterials | p. 266 |
Examples of Constitutive Parameters of Various Electromagnetic Structures | p. 272 |
Modeling Antennas Embedded inside Metamaterial Slabs | p. 280 |
Conclusion | p. 282 |
Index | p. 285 |
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