Add to ORKGThe authors report a comparison of the self-pulsing characteristics of two types of semiconductor laser. They show that the self-pulsing frequency of the DFB laser is decoupled from the resonance frequency. They discuss the various characteristics, their significance in relation to optical synchronisation, and use the results to suggest a possible explanation for the mechanism for self-pulsation in the DFB laser
The role of cavity conditions in the dynamics of two-section gain-coupled distributed feedback (DFB)...
We examine the behavior of self‐pulsating laser diodes when injected with periodic optical signals. ...
Self-pulsations reproducibly achieved in newly developed lasers with two distributed feedback sectio...
Ne present a traveling-wave large-signal simulation of the spatiotemporal dynamics of two-section di...
The authors show by experiment and calculation that, for self pulsating laser diodes synchronised to...
All-optical synchronization and timing extraction based on self-pulsating twin section lasers has be...
We present a traveling-wave large-signal simulation of the spatiotemporal dynamics of two-section di...
We establish an extensive experimental registration technique to study the dependence of the pulsati...
Self-pulsation in InGaAsP/InP multisection distributed feedback (DFB) lasers was generated reproduci...
The aim of the presented report is to demonstrate how the sampling techniques can be used to charact...
The role of cavity conditions in the dynamics of two-section gain-coupled distributed feedback (DFB)...
We describe the basic ideas behind the concept of distributed feedback (DFB) lasers with short optic...
The effect of short- and long-term frequency instability in self pulsation on all-optical synchroniz...
The characteristics of a three-section distributed Bragg reflector laser showing self-pulsation have...
A method is developed which allows for the calculation of locking regions of self-pulsating multi-se...
The role of cavity conditions in the dynamics of two-section gain-coupled distributed feedback (DFB)...
We examine the behavior of self‐pulsating laser diodes when injected with periodic optical signals. ...
Self-pulsations reproducibly achieved in newly developed lasers with two distributed feedback sectio...
Ne present a traveling-wave large-signal simulation of the spatiotemporal dynamics of two-section di...
The authors show by experiment and calculation that, for self pulsating laser diodes synchronised to...
All-optical synchronization and timing extraction based on self-pulsating twin section lasers has be...
We present a traveling-wave large-signal simulation of the spatiotemporal dynamics of two-section di...
We establish an extensive experimental registration technique to study the dependence of the pulsati...
Self-pulsation in InGaAsP/InP multisection distributed feedback (DFB) lasers was generated reproduci...
The aim of the presented report is to demonstrate how the sampling techniques can be used to charact...
The role of cavity conditions in the dynamics of two-section gain-coupled distributed feedback (DFB)...
We describe the basic ideas behind the concept of distributed feedback (DFB) lasers with short optic...
The effect of short- and long-term frequency instability in self pulsation on all-optical synchroniz...
The characteristics of a three-section distributed Bragg reflector laser showing self-pulsation have...
A method is developed which allows for the calculation of locking regions of self-pulsating multi-se...
The role of cavity conditions in the dynamics of two-section gain-coupled distributed feedback (DFB)...
We examine the behavior of self‐pulsating laser diodes when injected with periodic optical signals. ...
Self-pulsations reproducibly achieved in newly developed lasers with two distributed feedback sectio...