Add to ORKGAn InP-based tunable wavelength converter is investigated which monolithically combines a waveguide photodetector with a sampled-grating distributed Bragg reflector laser diode. We employ advanced device simulation to study internal physical mechanisms and performance limitations. Our three-dimensional finite-element model self-consistently combines carrier transport, optical waveguiding, and nanoscale many-body theory to accurately account for optical transitions within the quantum wells. Good agreement with measurements is achieved. The validity of several model simplification options is discussed
We investigate research issues on strained quantum-well optoelectronic devices and their application...
A 1550 InGaAsP-InP multiple-quantum-well (MQW) transistor laser is numerically modeled. The proposed...
We review our recent progress on frequency conversion in integrated devices, focusing primarily on e...
We have realized the monolithical integration of an all-optical Mach-Zehnder interferometric wavelen...
In this paper, we detail a new simulation strategy for the accurate prediction of the functionality ...
In this paper we present a simulation strategy for the accurate prediction of the functionality of a...
In this paper we present a simulation strategy for the accurate prediction of the functionality of a...
The promising concept of waveguide photodetection with integrated amplification is evaluated by self...
In this work, we report on experimental results of a fully integrated polarization converter made in...
From the explosive growth of the telecommunications industry in the past two decades, demand for hig...
Abstract—Tunable photocurrent-driven wavelength converters using widely tunable sampled grating dist...
In this work, we describe tunable wavelength converters based on a photodiode receiver integrated wi...
report on the generation of continuous-wave widely tunable light between 2360 and 2530 nm using diff...
Self-consistent modeling and multi-dimensional simulation of semiconductor nanophotonic devices is a...
We investigate research issues on strained quantum-well optoelectronic devices and their application...
A 1550 InGaAsP-InP multiple-quantum-well (MQW) transistor laser is numerically modeled. The proposed...
We review our recent progress on frequency conversion in integrated devices, focusing primarily on e...
We have realized the monolithical integration of an all-optical Mach-Zehnder interferometric wavelen...
In this paper, we detail a new simulation strategy for the accurate prediction of the functionality ...
In this paper we present a simulation strategy for the accurate prediction of the functionality of a...
In this paper we present a simulation strategy for the accurate prediction of the functionality of a...
The promising concept of waveguide photodetection with integrated amplification is evaluated by self...
In this work, we report on experimental results of a fully integrated polarization converter made in...
From the explosive growth of the telecommunications industry in the past two decades, demand for hig...
Abstract—Tunable photocurrent-driven wavelength converters using widely tunable sampled grating dist...
In this work, we describe tunable wavelength converters based on a photodiode receiver integrated wi...
report on the generation of continuous-wave widely tunable light between 2360 and 2530 nm using diff...
Self-consistent modeling and multi-dimensional simulation of semiconductor nanophotonic devices is a...
We investigate research issues on strained quantum-well optoelectronic devices and their application...
A 1550 InGaAsP-InP multiple-quantum-well (MQW) transistor laser is numerically modeled. The proposed...
We review our recent progress on frequency conversion in integrated devices, focusing primarily on e...