Mid-infrared Fano resonance in heavily doped silicon and metallic nanostructures due to coupling of Wood-Rayleigh anomaly and surface plasmons

Keyphrases

• Mid-infrared 100%
• Fano Resonance 100%
• Metallic Nanostructures 100%
• Silicon Nanostructures 100%
• Heavily Doped Silicon 100%
• Surface Plasmon 100%
• Rayleigh-Wood Anomalies 100%
• Grating Structure 66%
• High Performance 33%
• Numerical Results 33%
• Silicon Grating 33%
• Poynting Vector 33%
• Fabrication Methods 33%
• Reflection Spectrum 33%
• Surface Plasmon Resonance 33%
• Phosphorus Doping 33%
• Plasmonic Sensor 33%
• Magnetic Field Vector 33%
• Refractive Index Change 33%
• Si-doped 33%
• Sensor-based 33%
• Easy Fabrication 33%
• Air Medium 33%
• Pattern Vector 33%
• Water Medium 33%
• Refractive Index Unit 33%
• Metallic Grating 33%
• Doping Concentration 33%

Material Science

• Refractive Index 100%
• Nanocrystalline Material 100%
• Surface Plasmon 100%
• Silicon 100%
• Doping (Additives) 50%