Add to ORKGWe propose a computationally efficient approach for the simulation and design of index-guided quantum-dot (QD) passively mode-locked lasers with tapered gain section; the method is based on the combination of simulations based on a finite differ-ence beam-propagation-method and dynamic simulations of mode-locking via a multi-section delayed differential equation model. The impact of varying the taper full angle on the pulse duration and peak power is investigated; simulations show that a correct choice of this parameter enables the generation of sub-picosecond optical pulses with peak power exceeding 5
We consider a mode-locked quantum-dot edge-emitting semiconductor laser consisting of a reverse bias...
We consider a mode-locked quantum-dot edge-emitting semiconductor laser consisting of a reverse bias...
We study numerically and experimentally the role of the injection current and reverse bias voltage o...
We propose a computationally efficient approach for the simulation and design of index-guided quantu...
We propose a computationally efficient approach for the simulation and design of index-guided quantu...
We report on the simulation of passive mode locking (ML) in quantum dot (QD) two-section lasers via ...
We present a time-domain travelling-wave model for the simulation of passive mode-locking in quantum...
The dynamical regimes and performance optimization of quantum dot monolithic passively mode-locked l...
We propose a model for passive mode-locking in quantum dot laser and report on specific dynamical pr...
Numerical simulation and design of semiconductor quantum dot-based lasers and amplifier
Performance improving for monolithic two-section passively mode-locked (ML) quantum dot lasers has b...
We present a review of the most recent techniques for the analysis and the numerical simulation of m...
We present a modified version of the multi-section delayed differential equation (MS-DDE) model, for...
Operation regimes of a two section monolithic quantum dot mode-locked laser are studied theoreticall...
We present a systematic investigation of the passively mode-locked (ML) quantum dot lasers using a F...
We consider a mode-locked quantum-dot edge-emitting semiconductor laser consisting of a reverse bias...
We consider a mode-locked quantum-dot edge-emitting semiconductor laser consisting of a reverse bias...
We study numerically and experimentally the role of the injection current and reverse bias voltage o...
We propose a computationally efficient approach for the simulation and design of index-guided quantu...
We propose a computationally efficient approach for the simulation and design of index-guided quantu...
We report on the simulation of passive mode locking (ML) in quantum dot (QD) two-section lasers via ...
We present a time-domain travelling-wave model for the simulation of passive mode-locking in quantum...
The dynamical regimes and performance optimization of quantum dot monolithic passively mode-locked l...
We propose a model for passive mode-locking in quantum dot laser and report on specific dynamical pr...
Numerical simulation and design of semiconductor quantum dot-based lasers and amplifier
Performance improving for monolithic two-section passively mode-locked (ML) quantum dot lasers has b...
We present a review of the most recent techniques for the analysis and the numerical simulation of m...
We present a modified version of the multi-section delayed differential equation (MS-DDE) model, for...
Operation regimes of a two section monolithic quantum dot mode-locked laser are studied theoreticall...
We present a systematic investigation of the passively mode-locked (ML) quantum dot lasers using a F...
We consider a mode-locked quantum-dot edge-emitting semiconductor laser consisting of a reverse bias...
We consider a mode-locked quantum-dot edge-emitting semiconductor laser consisting of a reverse bias...
We study numerically and experimentally the role of the injection current and reverse bias voltage o...