Add to ORKGThe features of polarization independence of optical amplifiers achieved by using diffused QW are discussed. Our theoretical results successfully explain why polarization independence can achieve in the long wavelength tail of the modal gain and absorption coefficient but not at photon energies above the transition edge. This explanation applies to other tensile-strained QW for polarization independent applications. The understanding is crucial for optimizing polarization independent devices.published_or_final_versio
The application of strain in quantum-wells leads to polarization dependence in their absorption char...
This is a theoretical study to demonstrate the use of interdiffusion in the realization of polarizat...
The theoretical optimization of tensile strained InGaAsP/InGaAsP MQW for 1.5μm window polarization-i...
(DFB) lasers and optical amplifiers will be theoretically analyzed in this paper. For DFB lasers, a ...
A theoretical study of the polarization-independent optical gain using group V sublattice interdiffu...
Polarization independent quantum well (QW) materials operating under electro-absorption effect in op...
A theoretical study of the polarization independent quantum-well gain using interdiffusion is presen...
Abstract—A theoretical study of the polarization-independent (PI) optical gain using group III and g...
We present a theoretical and experimental study of the polarization properties of the four-wave mixi...
Abstract—A theoretical study of the polarization-independent optical gain using group V sublattice i...
Modeling is used to show that interdiffusion can generate a polarization independent parabolic-like ...
We give a general expression for the polarization dependence of the four-wave mixing (FWM) efficienc...
Summary form only given. Wavelength conversion by four-wave mixing (FWM) in semiconductor optical am...
A theoretical study of the polarization-independent optical gain using group V sublattice interdiffu...
Summary form only given. Wavelength conversion by four-wave mixing (FWM) in semiconductor optical am...
The application of strain in quantum-wells leads to polarization dependence in their absorption char...
This is a theoretical study to demonstrate the use of interdiffusion in the realization of polarizat...
The theoretical optimization of tensile strained InGaAsP/InGaAsP MQW for 1.5μm window polarization-i...
(DFB) lasers and optical amplifiers will be theoretically analyzed in this paper. For DFB lasers, a ...
A theoretical study of the polarization-independent optical gain using group V sublattice interdiffu...
Polarization independent quantum well (QW) materials operating under electro-absorption effect in op...
A theoretical study of the polarization independent quantum-well gain using interdiffusion is presen...
Abstract—A theoretical study of the polarization-independent (PI) optical gain using group III and g...
We present a theoretical and experimental study of the polarization properties of the four-wave mixi...
Abstract—A theoretical study of the polarization-independent optical gain using group V sublattice i...
Modeling is used to show that interdiffusion can generate a polarization independent parabolic-like ...
We give a general expression for the polarization dependence of the four-wave mixing (FWM) efficienc...
Summary form only given. Wavelength conversion by four-wave mixing (FWM) in semiconductor optical am...
A theoretical study of the polarization-independent optical gain using group V sublattice interdiffu...
Summary form only given. Wavelength conversion by four-wave mixing (FWM) in semiconductor optical am...
The application of strain in quantum-wells leads to polarization dependence in their absorption char...
This is a theoretical study to demonstrate the use of interdiffusion in the realization of polarizat...
The theoretical optimization of tensile strained InGaAsP/InGaAsP MQW for 1.5μm window polarization-i...