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Total absorption of light in sub-wavelength metallic waveguides
Marc G. Ghossoub,
Sanjiv Sinha
Mechanical Science and Engineering
Micro and Nanotechnology Lab
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Dive into the research topics of 'Total absorption of light in sub-wavelength metallic waveguides'. Together they form a unique fingerprint.
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Keyphrases
Absorption Enhancement
50%
Cavity Mode
100%
Cavity Resonance
50%
Energy Harvesting System
50%
Enhancement Mechanism
50%
Full-field Simulation
50%
Light Absorption
100%
Major Contributor
50%
Metallic Apertures
50%
Metallic Nanostructures
50%
Metallic Waveguide
100%
Optical Transmission
50%
Reflection Grating
50%
Resonant Cavity
50%
Semi-analytical Model
50%
Sensing Applications
50%
Spectroscopic Applications
50%
Subwavelength
100%
Subwavelength Grating
50%
Total Absorption
100%
Transmission Enhancement
50%
Transmission Grating
50%
Transmittance
50%
Transverse Electric
50%
Engineering
Analytical Model
50%
Energy Harvesting
50%
Enhancing Mechanism
50%
Fundamental Component
50%
Optical Transmission
50%
Transmissions
100%
Waveguide
100%
Physics
Energy Harvesting
100%
Transmittance
100%
Waveguide
100%
Material Science
Nanocrystalline Material
100%
Waveguide
100%