Add to ORKGIn this letter we report on a novel method to passively mode lock a semiconductor laser. We present experimental results of GaAlAs buried heterostructure semiconductor laser with a split contact coupled to an external cavity. The split contact structure is used to introduce a controllable amount of saturable absorption which is necessary to initiate passive mode locking. Unlike previous passive mode locking techniques, the method presented does not rely on absorption introduced by damaging the crystal and is consequently inherently more reliable. We have obtained pulses with a full width at half-maximum of 35 ps at repetition frequencies between 500 MHz and 1.5 GHz
We present the first integrated linear extended-cavity passively mode-locked (PML) semiconductor las...
The important experimental parameters affecting the mode locking of a variety of (GaAl)As injection ...
Active mode locking is reported for a 1.55 μm semiconductor laser with a curved waveguide and passiv...
We present a theory for passive mode-locking in semiconductor laser structures using a semiconductor...
Recent developments in two areas of high speed semiconductor lasers will be addressed: (1) passive m...
This thesis describes an experimental and theoretical investigation of active mode-locking of semico...
We report a novel approach for increasing the output power in passively mode locked semiconductor la...
This work presents an overview of a combined experimental and theoretical analysis on passive mode-l...
We derive and study a model describing passive mode locking—a set of differential equations with tim...
We show experimentally and theoretically that localized pulses can be generated from an electrically...
It is demonstrated that an ultrahigh speed window buried heterostructure GaAlAs laser fabricated on ...
Passive mode-locking in semiconductor lasers in a Fabry-Perot configuration with a bandgap blueshift...
Abstract—A new mode-locking method called self-hybrid mode-locking is explored. This method uses RF ...
We propose a new model for passive mode-locking that is a set of ordinary delay differential equatio...
We present the first integrated linear extended-cavity passively mode-locked (PML) semiconductor las...
The important experimental parameters affecting the mode locking of a variety of (GaAl)As injection ...
Active mode locking is reported for a 1.55 μm semiconductor laser with a curved waveguide and passiv...
We present a theory for passive mode-locking in semiconductor laser structures using a semiconductor...
Recent developments in two areas of high speed semiconductor lasers will be addressed: (1) passive m...
This thesis describes an experimental and theoretical investigation of active mode-locking of semico...
We report a novel approach for increasing the output power in passively mode locked semiconductor la...
This work presents an overview of a combined experimental and theoretical analysis on passive mode-l...
We derive and study a model describing passive mode locking—a set of differential equations with tim...
We show experimentally and theoretically that localized pulses can be generated from an electrically...
It is demonstrated that an ultrahigh speed window buried heterostructure GaAlAs laser fabricated on ...
Passive mode-locking in semiconductor lasers in a Fabry-Perot configuration with a bandgap blueshift...
Abstract—A new mode-locking method called self-hybrid mode-locking is explored. This method uses RF ...
We propose a new model for passive mode-locking that is a set of ordinary delay differential equatio...
We present the first integrated linear extended-cavity passively mode-locked (PML) semiconductor las...
The important experimental parameters affecting the mode locking of a variety of (GaAl)As injection ...
Active mode locking is reported for a 1.55 μm semiconductor laser with a curved waveguide and passiv...