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On the possibility of superluminal energy propagation in a hyperbolic metamaterial of metal-dielectric layers
Pi Gang Luan
, Jie Luen Wu
光電科學與工程學系
研究成果
:
雜誌貢獻
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期刊論文
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同行評審
3
引文 斯高帕斯(Scopus)
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Keyphrases
Dielectric Layer
100%
Wave Packet
100%
Superluminal
100%
Metal-dielectric
100%
Energy Propagation
100%
Hyperbolic Metamaterials
100%
Propagation Mode
66%
Wave Vector
33%
Frequency Dependence
33%
Electric Field (E-field)
33%
Metallic Materials
33%
Energy Density
33%
Electromagnetic Field
33%
Speed of Light
33%
Group Velocity
33%
Arbitrary Time
33%
Time-varying Electromagnetic Field
33%
Central Frequency
33%
Effective Medium
33%
Dielectric Materials
33%
Material Layer
33%
One-dimensional Photonic Crystal
33%
Propagation Velocity
33%
Frequency Spreading
33%
Non-penetrating
33%
Metallic Layer
33%
Lorentz Medium
33%
Drude Medium
33%
Superluminal Phenomena
33%
Superluminal Propagation
33%
Anisotropic Metamaterial
33%
Permittivity Tensor
33%
Evanescent Modes
33%
Real Materials
33%
Penetration Effect
33%
Hyperbolic Materials
33%
Hyperbolic Dispersion
33%
Packet Velocity
33%
Engineering
Energy Engineering
100%
Dielectrics
100%
Dielectric Layer
100%
Propagating Mode
100%
Photonics
50%
One Dimensional
50%
Anisotropic
50%
Group Velocity
50%
Central Frequency
50%
Evanescent
50%
Material Layer
50%
Frequency Spread
50%
Propagation Velocity
50%
Speed of Light
50%
Electric Field
50%
Flux Density
50%
Physics
Metamaterial
100%
Wave Packet
100%
Dielectric Material
100%
Electromagnetic Fields
66%
Permittivity
33%
Photonic Crystal
33%
Group Velocity
33%
Flux Density
33%
Propagation Velocity
33%
Electric Field
33%
Material Science
Metamaterial
100%
Dielectric Material
100%
Permittivity
33%
Metal
33%
Energy Density
33%
Photonic Crystal
33%