Engineering
Thin Films
100%
Absorption Property
100%
Nonlinear Absorption
97%
Metasurface
66%
Plasmonics
50%
Transmissions
33%
Experimental Observation
33%
Nitride
33%
Resonator
33%
Surface Plasmon
33%
Surface Integral Equation
33%
Photovoltaics
16%
Dielectrics
16%
Fits and Tolerances
16%
Photodetector
16%
Solar Cell
16%
Sio2 Layer
16%
Incidence Angle
16%
Optical Switch
11%
Limiters
11%
Scanning Electron Microscope
11%
Laser Excitation
11%
Absorption Coefficient
11%
Femtosecond Laser
11%
Photonic Devices
11%
Power Source
11%
Keyphrases
Doped PMMA
66%
PMMA Film
66%
Reverse Saturable Absorption
66%
Bismuth Telluride
66%
Linear Characterization
33%
Racetrack Ring Resonator
33%
Dual Carrier
33%
Electro-optic Frequency Comb
33%
Nonlinear Broadening
33%
Gap Surface Plasmons
33%
Multi-band Absorption
33%
Electro-optic Comb
22%
Nanoplates
22%
Z-scan
22%
Doping Concentration
22%
Nonlinear Absorption
22%
Large Incidence Angle
16%
Design Support
16%
Wavelength Detuning
11%
Input Conditions
11%
Physics
Waveguide
41%
Transmission Spectrum
33%
Silicon Nitride
33%
Resonator
33%
Graphene Oxide
33%
Thin Films
33%
Spectral Broadening
33%
Nitride
33%
Electro-Optics
33%
Metasurface
33%
Integral Equations
33%
Polariton
33%
Selenide
22%
Optical Device
11%
UV-vis Spectroscopy
11%
Topological Insulator
11%
Electromagnetic Absorption
11%
Electron Microscope
11%
Oxide Film
11%
Coherence
11%