Add to ORKGFour wave mixing gain in slow light engineered GaInP photonic crystal waveguides is accurately derived with the inclusion of dispersive nonlinearity and losses. Narrowband and broadband amplification are achieved for tunable slow light device application
The physical principles behind the phenomenon of slow light in photonic crystal waveguides, as well ...
We review the different types of dispersion engineered photonic crystal waveguides that have been de...
We show how slow-light enhanced four-wave mixing in dispersion engineered photonic crystal waveguide...
The linear and nonlinear properties of GaInP photonic crystal waveguides engineered for slow light a...
We predict narrowband parametric amplification in dispersion-tailored photonic crystal waveguides ma...
A complete and rigorous model of parametric gain in photonic crystal waveguides, including dispersiv...
The equations for Four-Wave-Mixing in a photonic crystal waveguide are derived accurately in the hyp...
We demonstrate Third Harmonic Generation and tunable delays in dispersion engineered slow light phot...
The self-, cross- and four-wave mixing coefficients are determined in photonic crystal waveguides sp...
The role of slow wave propagation in nonlinear photonic crystal waveguides is presented. Large enhan...
We review the different types of dispersion engineered photonic crystal waveguides that have been de...
We demonstrate how nonlinear optical phenomena are enhanced by slow light in dispersion engineered s...
We study propagation losses in slow light photonic crystal waveguides and show that dispersion engin...
We review the different types of dispersion engineered photonic crystal waveguides that have been de...
Parametric gain properties in dispersion engineered photonic crystal waveguides are studied for cont...
The physical principles behind the phenomenon of slow light in photonic crystal waveguides, as well ...
We review the different types of dispersion engineered photonic crystal waveguides that have been de...
We show how slow-light enhanced four-wave mixing in dispersion engineered photonic crystal waveguide...
The linear and nonlinear properties of GaInP photonic crystal waveguides engineered for slow light a...
We predict narrowband parametric amplification in dispersion-tailored photonic crystal waveguides ma...
A complete and rigorous model of parametric gain in photonic crystal waveguides, including dispersiv...
The equations for Four-Wave-Mixing in a photonic crystal waveguide are derived accurately in the hyp...
We demonstrate Third Harmonic Generation and tunable delays in dispersion engineered slow light phot...
The self-, cross- and four-wave mixing coefficients are determined in photonic crystal waveguides sp...
The role of slow wave propagation in nonlinear photonic crystal waveguides is presented. Large enhan...
We review the different types of dispersion engineered photonic crystal waveguides that have been de...
We demonstrate how nonlinear optical phenomena are enhanced by slow light in dispersion engineered s...
We study propagation losses in slow light photonic crystal waveguides and show that dispersion engin...
We review the different types of dispersion engineered photonic crystal waveguides that have been de...
Parametric gain properties in dispersion engineered photonic crystal waveguides are studied for cont...
The physical principles behind the phenomenon of slow light in photonic crystal waveguides, as well ...
We review the different types of dispersion engineered photonic crystal waveguides that have been de...
We show how slow-light enhanced four-wave mixing in dispersion engineered photonic crystal waveguide...