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负折射和负折射率材料物理:光电性质和不同实现方法(英文 影印版)
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负折射和负折射率材料物理:光电性质和不同实现方法(英文 影印版)
作 者: (美)克罗恩(Krowne,C.),张勇(Zhang,Y.)编
出版时间: 2012
内容简介
本书讨论了光电的负折射和负折射率材料。各种获得负折射和负折射率材料的方法都在本书中有所涵盖,比如利用光子晶体、声子晶体、裂环振荡器和连续媒介等等。另外,本书还对波、导波行为和非线性效应作了仔细讨论。本书还讨论了左手材料极化理论,磁性左手材料合成,SRR-rod 实现,采用 SRR-rod元胞的低损耗导波带,左手材料以及电磁波和电子波在均匀介质中的负折射等等。本书适合材料科学、固体物理、光学等研究方向的研究者和研究生阅读。
目录
1 Negative Refraction of Electromagnetic and Electronic Waves in Uniform Media
Y. Zhang and A. Mascarenhas
1.1 Introduction
1.1.1 Negative Refraction
1.1.2 Negative Refraction with Spatial Dispersion
1.1.3 Negative Refraction with Double Negativity
1.1.4 Negative Refraction Without Left-Handed Behavior
1.1.5 Negative Refraction Using Photonic Crystals
1.1.6 From Negative Refraction to Perfect Lens
1.2 Conditions for Realizing Negative Refraction
and Zero Reflection
1.3 Conclusion
References
2 Anisotropic Field Distributions in Left-Handed Guided Wave Electronic Structures and Negative Refractive Bicrystal Heterostructures
C.M. Krowne
2.1 Anisotropic Field Distributions in Left-Handed Guided Wave Electronic Structures
2.1.1 Introduction
2.1.2 Anisotropic Green's Function Based Upon LHM or DNM Properties
2.1.3 Determination of the Eigenvalues and Eigenvectors for LHM or DNM
2.1.4 Numerical Calculations of the Electromagnetic Field for LHM or DNM
2.1.5 Conclusion
2.2 Negative Refractive Bicrystal Heterostructures
2.2.1 Introduction
2.2.2 Theoretical Crystal Tensor Rotations
2.2.3 Guided Stripline Structure
2.2.4 Beam Steering and Control Component Action
2.2.5 Electromagnetic Fields
2.2.6 Surface Current Distributions
2.2.7 Conclusion
References
3 "Left-Handed" Magnetic Granular Composites
S.T. Chui, L.B. Hu, Z. Lin and L. Zhou
3.1 Introduction
3.2 Description of "Left-Handed" Electromagnetic Waves: The Effect of the Imaginary Wave Vector
3.3 Electromagnetic Wave Propagations in Homogeneous Magnetic Materials
3.4 Some Characteristics of Electromagnetic Wave Propagation in Anisotropic "Left-Handed" Materials
3.4.1 "Left-Handed" Characteristic of Electromagnetic Wave Propagation in Uniaxial Anisotropic "Left-Handed" Media
3.4.2 Characteristics of Refraction of Electromagnetic Waves at the Interfaces of Isotropic Regular Media and Anisotropic "Left-Handed" Media
3.5 Multilayer Structures Left-Handed Material: An Exact Example
References
4 Spatial Dispersion, Polaritons, and Negative Refraction
V.M. Agranovich and Yu.N. Gartstein
4.1 Introduction
4.2 Nature of Negative Refraction: Historical Remarks
4.2.1 Mandelstam and Negative Refraction
4.2.2 Cherenkov Radiation
4.3 Maxwell Equations and Spatial Dispersion
4.3.1 Dielectric Tensor
4.3.2 Isotropic Systems with Spatial Inversion
4.3.3 Connection to Microscopics
4.3.4 Isotropic Systems Without Spatial Inversion
4.4 Polaritons with Negative Group Velocity
4.4.1 Excitons with Negative Effective Mass in Nonchiral Media
4.4.2 Chiral Systems in the Vicinity of Excitonic Transitions
4.4.3 Chiral Systems in the Vicinity of the Longitudinal Frequency
4.4.4 Surface Polaritons
4.5 Magnetic Permeability at Optical Frequencies
4.5.1 Magnetic Moment of a Macroscopic Body
……
5 Negative Refraction in Photonic Crystals
6 Negative Refraction and Subwavelength Focusing in Two-Dimensional Photonic Crystals
7 Negative Refraction and Imaging with Ouasicrvstals
8 Generalizing the Concept of Negative Medium to Acoustic Waves
9 Experiments and Simulations of Microwave Negative Refraction in Split Ring and Wire Array Negative Index Materials, 2D Split-Ring Resonator and 2D Metallic Disk Photonic Crystals
10 Super Low Loss Guided Wave Bands Using Split Ring Resonator-Rod Assemblies as Left-Handed Materials
11 Development of Negative Index of Refraction Metamaterials with Split Ring Resonators and Wires for RF Lens Applications
12 Nonlinear Effects in Left-Handed Metamaterials
Index
作 者: (美)克罗恩(Krowne,C.),张勇(Zhang,Y.)编
出版时间: 2012
内容简介
本书讨论了光电的负折射和负折射率材料。各种获得负折射和负折射率材料的方法都在本书中有所涵盖,比如利用光子晶体、声子晶体、裂环振荡器和连续媒介等等。另外,本书还对波、导波行为和非线性效应作了仔细讨论。本书还讨论了左手材料极化理论,磁性左手材料合成,SRR-rod 实现,采用 SRR-rod元胞的低损耗导波带,左手材料以及电磁波和电子波在均匀介质中的负折射等等。本书适合材料科学、固体物理、光学等研究方向的研究者和研究生阅读。
目录
1 Negative Refraction of Electromagnetic and Electronic Waves in Uniform Media
Y. Zhang and A. Mascarenhas
1.1 Introduction
1.1.1 Negative Refraction
1.1.2 Negative Refraction with Spatial Dispersion
1.1.3 Negative Refraction with Double Negativity
1.1.4 Negative Refraction Without Left-Handed Behavior
1.1.5 Negative Refraction Using Photonic Crystals
1.1.6 From Negative Refraction to Perfect Lens
1.2 Conditions for Realizing Negative Refraction
and Zero Reflection
1.3 Conclusion
References
2 Anisotropic Field Distributions in Left-Handed Guided Wave Electronic Structures and Negative Refractive Bicrystal Heterostructures
C.M. Krowne
2.1 Anisotropic Field Distributions in Left-Handed Guided Wave Electronic Structures
2.1.1 Introduction
2.1.2 Anisotropic Green's Function Based Upon LHM or DNM Properties
2.1.3 Determination of the Eigenvalues and Eigenvectors for LHM or DNM
2.1.4 Numerical Calculations of the Electromagnetic Field for LHM or DNM
2.1.5 Conclusion
2.2 Negative Refractive Bicrystal Heterostructures
2.2.1 Introduction
2.2.2 Theoretical Crystal Tensor Rotations
2.2.3 Guided Stripline Structure
2.2.4 Beam Steering and Control Component Action
2.2.5 Electromagnetic Fields
2.2.6 Surface Current Distributions
2.2.7 Conclusion
References
3 "Left-Handed" Magnetic Granular Composites
S.T. Chui, L.B. Hu, Z. Lin and L. Zhou
3.1 Introduction
3.2 Description of "Left-Handed" Electromagnetic Waves: The Effect of the Imaginary Wave Vector
3.3 Electromagnetic Wave Propagations in Homogeneous Magnetic Materials
3.4 Some Characteristics of Electromagnetic Wave Propagation in Anisotropic "Left-Handed" Materials
3.4.1 "Left-Handed" Characteristic of Electromagnetic Wave Propagation in Uniaxial Anisotropic "Left-Handed" Media
3.4.2 Characteristics of Refraction of Electromagnetic Waves at the Interfaces of Isotropic Regular Media and Anisotropic "Left-Handed" Media
3.5 Multilayer Structures Left-Handed Material: An Exact Example
References
4 Spatial Dispersion, Polaritons, and Negative Refraction
V.M. Agranovich and Yu.N. Gartstein
4.1 Introduction
4.2 Nature of Negative Refraction: Historical Remarks
4.2.1 Mandelstam and Negative Refraction
4.2.2 Cherenkov Radiation
4.3 Maxwell Equations and Spatial Dispersion
4.3.1 Dielectric Tensor
4.3.2 Isotropic Systems with Spatial Inversion
4.3.3 Connection to Microscopics
4.3.4 Isotropic Systems Without Spatial Inversion
4.4 Polaritons with Negative Group Velocity
4.4.1 Excitons with Negative Effective Mass in Nonchiral Media
4.4.2 Chiral Systems in the Vicinity of Excitonic Transitions
4.4.3 Chiral Systems in the Vicinity of the Longitudinal Frequency
4.4.4 Surface Polaritons
4.5 Magnetic Permeability at Optical Frequencies
4.5.1 Magnetic Moment of a Macroscopic Body
……
5 Negative Refraction in Photonic Crystals
6 Negative Refraction and Subwavelength Focusing in Two-Dimensional Photonic Crystals
7 Negative Refraction and Imaging with Ouasicrvstals
8 Generalizing the Concept of Negative Medium to Acoustic Waves
9 Experiments and Simulations of Microwave Negative Refraction in Split Ring and Wire Array Negative Index Materials, 2D Split-Ring Resonator and 2D Metallic Disk Photonic Crystals
10 Super Low Loss Guided Wave Bands Using Split Ring Resonator-Rod Assemblies as Left-Handed Materials
11 Development of Negative Index of Refraction Metamaterials with Split Ring Resonators and Wires for RF Lens Applications
12 Nonlinear Effects in Left-Handed Metamaterials
Index
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