We report on the simulation of passive mode locking (ML) in quantum dot (QD) two-section lasers via a multi-section delayed differential equation model. The influence of the laser structural parameters on the achieved ML regimes is investigated. We show that, consistently with experimental findings, increasing the saturable absorber (SA) to gain section length ratio from 17% to 25%, a significant pulse shortening can be achieved. A physical explanation for this behavior is obtained via a detailed study of the gain and absorption saturation dynamics leading to the self consistent ML solution, in particular the competition between spectral hole burning non-linearity and total carrier density depletion responsible for the gain saturation in t...
The performance optimization of monolithic two-section passively mode-locked quantum-dot lasers is i...
Operation regimes of a two section monolithic quantum dot mode-locked laser are studied theoreticall...
Passively mode-locked lasers based on InAs/GaAs quantum dots have benefited from the unique properti...
We report on the simulation of passive mode locking (ML) in quantum dot (QD) two-section lasers via ...
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 present a systematic investigation of the passively mode-locked (ML) quantum dot lasers using a F...
We present a modified version of the multi-section delayed differential equation (MS-DDE) model, for...
We propose a model for passive mode-locking in quantum dot laser and report on specific dynamical pr...
Using models based on delay differential equation (DDE) and finite difference traveling wave (FDTW),...
We study numerically and experimentally the role of the injection current and reverse bias voltage o...
We propose a model for passive mode locking in quantum dot lasers and report on specific dynamical p...
Operation regimes of a two section monolithic quantum dot (QD) mode-locked laser are studied experim...
The dynamical regimes and performance optimization of quantum dot monolithic passively mode-locked l...
A dynamic model of passive mode-locking in quantum-dot laser diodes is presented. It is found that i...
The performance optimization of monolithic two-section passively mode-locked quantum-dot lasers is i...
Operation regimes of a two section monolithic quantum dot mode-locked laser are studied theoreticall...
Passively mode-locked lasers based on InAs/GaAs quantum dots have benefited from the unique properti...
We report on the simulation of passive mode locking (ML) in quantum dot (QD) two-section lasers via ...
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 present a systematic investigation of the passively mode-locked (ML) quantum dot lasers using a F...
We present a modified version of the multi-section delayed differential equation (MS-DDE) model, for...
We propose a model for passive mode-locking in quantum dot laser and report on specific dynamical pr...
Using models based on delay differential equation (DDE) and finite difference traveling wave (FDTW),...
We study numerically and experimentally the role of the injection current and reverse bias voltage o...
We propose a model for passive mode locking in quantum dot lasers and report on specific dynamical p...
Operation regimes of a two section monolithic quantum dot (QD) mode-locked laser are studied experim...
The dynamical regimes and performance optimization of quantum dot monolithic passively mode-locked l...
A dynamic model of passive mode-locking in quantum-dot laser diodes is presented. It is found that i...
The performance optimization of monolithic two-section passively mode-locked quantum-dot lasers is i...
Operation regimes of a two section monolithic quantum dot mode-locked laser are studied theoreticall...
Passively mode-locked lasers based on InAs/GaAs quantum dots have benefited from the unique properti...