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Four-wave mixing in Weyl semimetals
Sultan Almutairi
, Qianfan Chen
,
Mikhail Tokman
, Alexey Belyanin
Research output
:
Contribution to journal
›
Article
›
peer-review
11
Scopus citations
Overview
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Engineering
Linear Dispersion
100%
Nonlinear Signal
100%
Nonlinearity
100%
Optimal Condition
100%
Optoelectronic Device
100%
Pump Power
100%
Signal Intensity
100%
Keyphrases
Four-wave Mixing
100%
High Fermi Velocity
20%
Linear Dispersion
20%
Long Wavelength
20%
Long Wavelength Limit
20%
Lossy Material
20%
Nonlinear Four-wave Mixing
20%
Nonlinear Generation
20%
Nonlinear Optical Conductivity
20%
Nonlinear Signal
20%
Optical Response
20%
Plasma Resonance
20%
Power Generation Efficiency
20%
Pumping Power
20%
Reflection Geometry
20%
Relevant Parameters
20%
Signal Intensity
20%
Skin Depth
20%
Surface Electron States
20%
Third-order Nonlinear Optics
20%
Third-order Optical Nonlinearity
20%
Three-dimensional (3D)
20%
Topological Properties
20%
Ultrathin
20%
Weyl Fermions
20%
Weyl Semimetal
100%
Physics
Electron State
20%
Fermion
20%
Four-Wave Mixing
100%
Metalloid
100%
Nonlinear Signal
20%
Optoelectronic Device
20%
Plasma Resonance
20%
Material Science
Film
40%
Semimetals
100%
Surface (Surface Science)
40%
Chemical Engineering
Film
40%
Metalloid
100%