A method is developed which allows for the calculation of locking regions of self-pulsating multi-section lasers which are exposed to external optical data sequences. In particular, resonant locking is investigated where both wavelength detuning and detuning of the power frequencies are important
We establish an extensive experimental registration technique to study the dependence of the pulsati...
We report all-optical synchronized multiplication by rational fractions of the modulation frequency ...
The dynamics of coherent clock recovery (CR) using self-pulsing two-section distributed feedback (TS...
A method is developed which allows for the calculation of locking regions of self-pulsating multi-se...
Recovering the frequency of incoming data sequences in optical transmission lines is important for s...
Recovering the frequency of incoming data sequences in optical transmission lines is important for s...
The aim of the presented report is to demonstrate how the sampling techniques can be used to charact...
The suitability of self-pulsating multi-section DFB lasers for high speed signal processing is shown...
The effect of short- and long-term frequency instability in self pulsation on all-optical synchroniz...
Self-pulsations in Phase Controlled Mode Beating lasers (PhaseCOMB) are very attractive for all-opti...
A theoretical model of a self-pulsating three-section DFB laser with an integrated phase tuning sect...
The authors report a comparison of the self-pulsing characteristics of two types of semiconductor la...
Self-pulsations reproducibly achieved in newly developed lasers with two distributed feedback sectio...
The dynamics of coherent clock recovery (CR) using self-pulsing two-section distributed feedback (TS...
All-optical synchronization and timing extraction based on self-pulsating twin section lasers has be...
We establish an extensive experimental registration technique to study the dependence of the pulsati...
We report all-optical synchronized multiplication by rational fractions of the modulation frequency ...
The dynamics of coherent clock recovery (CR) using self-pulsing two-section distributed feedback (TS...
A method is developed which allows for the calculation of locking regions of self-pulsating multi-se...
Recovering the frequency of incoming data sequences in optical transmission lines is important for s...
Recovering the frequency of incoming data sequences in optical transmission lines is important for s...
The aim of the presented report is to demonstrate how the sampling techniques can be used to charact...
The suitability of self-pulsating multi-section DFB lasers for high speed signal processing is shown...
The effect of short- and long-term frequency instability in self pulsation on all-optical synchroniz...
Self-pulsations in Phase Controlled Mode Beating lasers (PhaseCOMB) are very attractive for all-opti...
A theoretical model of a self-pulsating three-section DFB laser with an integrated phase tuning sect...
The authors report a comparison of the self-pulsing characteristics of two types of semiconductor la...
Self-pulsations reproducibly achieved in newly developed lasers with two distributed feedback sectio...
The dynamics of coherent clock recovery (CR) using self-pulsing two-section distributed feedback (TS...
All-optical synchronization and timing extraction based on self-pulsating twin section lasers has be...
We establish an extensive experimental registration technique to study the dependence of the pulsati...
We report all-optical synchronized multiplication by rational fractions of the modulation frequency ...
The dynamics of coherent clock recovery (CR) using self-pulsing two-section distributed feedback (TS...
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