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Mode conversion based on dielectric metamaterial in silicon
David Ohana,
Uriel Levy
The Institute of Applied Physics
Research output
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Contribution to journal
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Article
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peer-review
68
Scopus citations
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Dive into the research topics of 'Mode conversion based on dielectric metamaterial in silicon'. Together they form a unique fingerprint.
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Keyphrases
Graded-index Profile
100%
Mode Converter
100%
Mode Conversion
100%
Dielectric Metamaterials
100%
Transverse Direction
50%
Waveguide
50%
Mode Purity
50%
Propagation Direction
50%
Effective Medium
50%
Finite-difference Time-domain Simulation
50%
Nanoscale Dielectrics
50%
Refractive Index
50%
Silicon Waveguide
50%
Input Mode
50%
Graded-index
50%
Coupled Mode Theory
50%
Spectral Bandwidth
50%
Design Considerations
50%
Symmetric Mode
50%
Asymmetric Modes
50%
Periodic Variation
50%
Grating Coupler
50%
Effective Medium Theory
50%
3D Finite Difference
50%
Multimode Waveguides
50%
Engineering
Dielectrics
100%
Graded Index
100%
Index Profile
66%
Waveguide
66%
Nanoscale
33%
Refractive Index
33%
Silicon Waveguide
33%
Directional
33%
Time Domain
33%
Multimode
33%
Crosstalk
33%
Propagation Direction
33%
Spectral Bandwidth
33%
Design Consideration
33%
Asymmetric Mode
33%
Symmetric Mode
33%
Refractivity
33%
Physics
Metamaterial
100%
Waveguide
100%
Dielectric Material
100%
Nanoscale
33%
Refractivity
33%
Finite - Difference Time - Domain Simulation
33%
Coupled Mode
33%
Grating Coupler
33%
Periodic Variation
33%
Material Science
Metamaterial
100%
Silicon
100%
Waveguide
100%
Dielectric Material
100%
Refractive Index
33%
Finite Difference Method
33%