Add to ORKGIn this paper we present a BPM simulator for the analysis of high power flared semiconductor lasers. The simulator takes into account both transversal and longitudinal spatial hole burning, solving self-consistently the equations for the field evolution and the carrier diffusion
We have added to our very general, user friendly simulator for integrated optical circuits the capab...
A fully two-dimensional self-consistent quantum well laser simulator called Minilase has been develo...
One of the key topics in today's semiconductor laser development activities is to increase the brigh...
We present a dynamical beam propagation method for modelling pulse propagation in flared semiconduct...
The effect of longitudinal spatial hole burning on the performance of a semiconductor laser with a s...
We present a set of rate equations for the modal amplitudes and carrier-inversion moments that descr...
Abstract The effect of longitudinal spatial hole burning on the performance of a semiconductor laser...
Increasing the brightness of high-power diode lasers is one of the key topics in today's semiconduct...
Modern electronics are increasingly more capable of high-power density operation, which presents imp...
A versatile, two-dimensional simulator for various types of semiconductor lasers for both steady and...
High-power broad-area diode lasers (BALs) exhibit chaotic spatio-temporal dynamics above threshold. ...
This paper describes a comprehensive simulation technique for semiconductor lasers. In particular, a...
High power tapered semiconductor lasers are characterized by a huge amount of structural and geometr...
In this work, numerical methods for the simulation of broad-area edge-emitting semicon- ductor laser...
Transient processes of semiconductor laser were simulated. These processes are best described by the...
We have added to our very general, user friendly simulator for integrated optical circuits the capab...
A fully two-dimensional self-consistent quantum well laser simulator called Minilase has been develo...
One of the key topics in today's semiconductor laser development activities is to increase the brigh...
We present a dynamical beam propagation method for modelling pulse propagation in flared semiconduct...
The effect of longitudinal spatial hole burning on the performance of a semiconductor laser with a s...
We present a set of rate equations for the modal amplitudes and carrier-inversion moments that descr...
Abstract The effect of longitudinal spatial hole burning on the performance of a semiconductor laser...
Increasing the brightness of high-power diode lasers is one of the key topics in today's semiconduct...
Modern electronics are increasingly more capable of high-power density operation, which presents imp...
A versatile, two-dimensional simulator for various types of semiconductor lasers for both steady and...
High-power broad-area diode lasers (BALs) exhibit chaotic spatio-temporal dynamics above threshold. ...
This paper describes a comprehensive simulation technique for semiconductor lasers. In particular, a...
High power tapered semiconductor lasers are characterized by a huge amount of structural and geometr...
In this work, numerical methods for the simulation of broad-area edge-emitting semicon- ductor laser...
Transient processes of semiconductor laser were simulated. These processes are best described by the...
We have added to our very general, user friendly simulator for integrated optical circuits the capab...
A fully two-dimensional self-consistent quantum well laser simulator called Minilase has been develo...
One of the key topics in today's semiconductor laser development activities is to increase the brigh...