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Nonlinear diffraction in asymmetric dielectric metasurfaces
Jonathan Bar-David,
Uriel Levy
*
*
Corresponding author for this work
Department of Applied Physics
Research output
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Article
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peer-review
55
Scopus citations
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Keyphrases
Amorphous Silicon
50%
Dielectric Metasurfaces
100%
Diffraction Pattern
25%
Electromagnetic Field Enhancement
25%
Experimental Characterization
25%
Harmonic Frequency
25%
High-order
25%
Light Propagation
25%
Linear Regime
25%
Meta-atom
75%
Metasurface
100%
Nanostructures
25%
Nonlinear Diffraction
100%
Nonlinear Optical Crystal
25%
Nonlinear Properties
25%
Nonlinear Signal
25%
Second Harmonic
50%
Second Harmonic Generation
50%
Second Harmonic Signal
75%
Selection Rules
25%
Silicon Crystal
25%
Surface-to-volume Ratio
25%
Engineering
Dielectrics
100%
Experimental Characterization
16%
Field Enhancement
16%
Harmonic Generation
33%
Harmonic Light
16%
Harmonics
83%
Light Propagation
16%
Linear Regime
16%
Metasurface
100%
Nanomaterial
16%
Nanoscale
16%
Nonlinear Crystal
16%
Nonlinear Signal
16%
Selection Rule
16%
Volume Ratio
16%
Physics
Amorphous Silicon
33%
Dielectric Material
100%
Diffraction Pattern
16%
Electromagnetic Fields
16%
Harmonics
100%
Metasurface
100%
Nanomaterial
16%
Nanoscale
16%
Nonlinear Signal
16%
Second Harmonic Generation
33%
Material Science
Amorphous Silicon
100%
Dielectric Material
100%
Diffraction Pattern
50%
Nanostructure
50%
Silicon
50%
Surface (Surface Science)
100%