1.55- mu m InGaAsP-InP multi-section DFB lasers with an integrated phase tuning section have been fabricated. It is shown for the first time that the self-pulsation can be electrically switched on and off by adjusting the phase current. Reproducible self-pulsation characteristics from device to device are achieved in this way
The role of cavity conditions in the dynamics of two-section gain-coupled distributed feedback (DFB)...
Two-section, 1.55- mu m quantum-well DFB lasers, with a very high kappa of 300/cm, show self-pulsati...
Ne present a traveling-wave large-signal simulation of the spatiotemporal dynamics of two-section di...
An integratable version of a self-pulsating AR-coated multisection DFB-laser with a phase-tuning sec...
Self-pulsations reproducibly achieved in newly developed lasers with two distributed feedback sectio...
A theoretical model of a self-pulsating three-section DFB laser with an integrated phase tuning sect...
We establish an extensive experimental registration technique to study the dependence of the pulsati...
A 1.55 mu m InGaAsP-InP two-section DFB laser with a variable ridge width has been fabricated. Self-...
Self-pulsation in InGaAsP/InP multisection distributed feedback (DFB) lasers was generated reproduci...
A 1.55μm InGaAsP-InP three-section DFB laser with hybrid grating is fabricated and self-pulsations (...
Self-pulsating DFB lasers are devices with a unique combination of features. An overview for these d...
A 1.55 mu m InGaAsP-InP index-coupled two-section DFB self-pulsation laser (SPL) with a varied ridge...
We describe the basic ideas behind the concept of distributed feedback (DFB) lasers with short optic...
Wavelength and polarisation independent synchronisation of DFB type self-pulsations is demonstrated ...
The role of cavity conditions in the dynamics of two-section gain-coupled distributed feedback (DFB)...
The role of cavity conditions in the dynamics of two-section gain-coupled distributed feedback (DFB)...
Two-section, 1.55- mu m quantum-well DFB lasers, with a very high kappa of 300/cm, show self-pulsati...
Ne present a traveling-wave large-signal simulation of the spatiotemporal dynamics of two-section di...
An integratable version of a self-pulsating AR-coated multisection DFB-laser with a phase-tuning sec...
Self-pulsations reproducibly achieved in newly developed lasers with two distributed feedback sectio...
A theoretical model of a self-pulsating three-section DFB laser with an integrated phase tuning sect...
We establish an extensive experimental registration technique to study the dependence of the pulsati...
A 1.55 mu m InGaAsP-InP two-section DFB laser with a variable ridge width has been fabricated. Self-...
Self-pulsation in InGaAsP/InP multisection distributed feedback (DFB) lasers was generated reproduci...
A 1.55μm InGaAsP-InP three-section DFB laser with hybrid grating is fabricated and self-pulsations (...
Self-pulsating DFB lasers are devices with a unique combination of features. An overview for these d...
A 1.55 mu m InGaAsP-InP index-coupled two-section DFB self-pulsation laser (SPL) with a varied ridge...
We describe the basic ideas behind the concept of distributed feedback (DFB) lasers with short optic...
Wavelength and polarisation independent synchronisation of DFB type self-pulsations is demonstrated ...
The role of cavity conditions in the dynamics of two-section gain-coupled distributed feedback (DFB)...
The role of cavity conditions in the dynamics of two-section gain-coupled distributed feedback (DFB)...
Two-section, 1.55- mu m quantum-well DFB lasers, with a very high kappa of 300/cm, show self-pulsati...
Ne present a traveling-wave large-signal simulation of the spatiotemporal dynamics of two-section di...
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