Add to ORKGWe investigate a composite InAsP/InGaAs quantum well in which an 8 nm tensile strained InGaAs well is surrounded by two compressively strained InAsP layers which feature a 70:30 conduction band offset ratio. The composite quantum well is found to provide a high TM differential gain. The InAsP layers provide strain compensation while simultaneously shifting the band gap to the relevant 1.55 µm wavelength region and increasing the electron confinement. Composite InAsP/InGaAs quantum wells are a promising candidate for realizing a polarization independent semiconductor optical amplifier at 1.55 µm
[[abstract]]The physical and optical properties of compressively strained InGaAsP/InGaP quantum well...
A theoretical study of the polarization independent quantum-well gain using interdiffusion is presen...
The driving force for the rapid development of two-dimensional semiconductor structures, such as qua...
Composite InAsP/InGaAs quantum wells are a promising candidate for realizing polarization-independen...
Composite InAsP/InGaAs quantum wells are a promising candidate for realizing polarization-independen...
We investigate a composite InAsP/InGaAs quantum well in which an 8 nm tensile strained InGaAs well i...
We investigate a composite InAsP/InGaAs quantum well in which an 8 nm tensile strained InGaAs well i...
We investigate a composite InAsP/InGaAs quantum well in which an 8 nm tensile strained InGaAs well i...
We investigate a composite InAsP/InGaAs quantum well in which an 8 nm tensile strained InGaAs well i...
Composite InAsP/InGaAs quantum wells are a promising candidate for realizing polarization-independen...
Composite InAsP/InGaAs quantum wells are a promising candidate for realizing polarization-independen...
The theoretical optimization of tensile strained InGaAsP/InGaAsP MQW for 1.5μm window polarization-i...
We present for the first time an in-depth numerical analyses on a strained-barrier InGaAs/InGaAs mul...
Polarization independent quantum well (QW) materials operating under electro-absorption effect in op...
A polarization insensitive optical amplifier based on a lattice matched InGaAs/InGaAsP/InP multiple ...
[[abstract]]The physical and optical properties of compressively strained InGaAsP/InGaP quantum well...
A theoretical study of the polarization independent quantum-well gain using interdiffusion is presen...
The driving force for the rapid development of two-dimensional semiconductor structures, such as qua...
Composite InAsP/InGaAs quantum wells are a promising candidate for realizing polarization-independen...
Composite InAsP/InGaAs quantum wells are a promising candidate for realizing polarization-independen...
We investigate a composite InAsP/InGaAs quantum well in which an 8 nm tensile strained InGaAs well i...
We investigate a composite InAsP/InGaAs quantum well in which an 8 nm tensile strained InGaAs well i...
We investigate a composite InAsP/InGaAs quantum well in which an 8 nm tensile strained InGaAs well i...
We investigate a composite InAsP/InGaAs quantum well in which an 8 nm tensile strained InGaAs well i...
Composite InAsP/InGaAs quantum wells are a promising candidate for realizing polarization-independen...
Composite InAsP/InGaAs quantum wells are a promising candidate for realizing polarization-independen...
The theoretical optimization of tensile strained InGaAsP/InGaAsP MQW for 1.5μm window polarization-i...
We present for the first time an in-depth numerical analyses on a strained-barrier InGaAs/InGaAs mul...
Polarization independent quantum well (QW) materials operating under electro-absorption effect in op...
A polarization insensitive optical amplifier based on a lattice matched InGaAs/InGaAsP/InP multiple ...
[[abstract]]The physical and optical properties of compressively strained InGaAsP/InGaP quantum well...
A theoretical study of the polarization independent quantum-well gain using interdiffusion is presen...
The driving force for the rapid development of two-dimensional semiconductor structures, such as qua...