This is a copy of the author 's final draft version of an article published in the journal European physical journal. Special topics.The predictability of extreme intensity pulses emitted by an optically injected semiconductor laser is studied numerically, by using a well-known rate equation model. We show that symbolic ordinal time-series analysis allows to identify the patterns of intensity oscillations that are likely to occur before an extreme pulse. The method also gives information about patterns which are unlikely to occur before an extreme pulse. The specific patterns identified capture the topology of the underlying chaotic attractor and depend on the model parameters. The methodology proposed here can be useful for analyzing data ...
This report presents a modern approach to the theoretical and experimental study of complex nonlinea...
Modeling complex systems from first principles could be a tantalizing task. Dynamical models of natu...
We present comprehensive numerically simulated scans of the spectral evolution of the output from a ...
This is a copy of the author 's final draft version of an article published in the journal European ...
The predictability of ultra-high pulses emitted by optically injected semiconductor lasers is studie...
© 2017 [Optical Society of America]. Users may use, reuse, and build upon the article, or use the ar...
Forecasting the dynamics of chaotic systems from the analysis of their output signals is a challengi...
Forecasting the dynamics of chaotic systems from the analysis of their output signals is a challengi...
We study experimentally the symbolic dyna-mics of a stochastic excitable optical system with externa...
Optical injection into a semiconductor laser is a promising technique for generating optical microwa...
We study sudden changes in the chaotic output of an optically injected semiconductor laser. For what...
Optically injected semiconductor lasers are known to display a rich variety of dynamic behaviours, i...
Rogue waves are devastating extreme events that occur in many natural systems, and a lot of work has...
We use statistical tools to characterize the response of an excitable system to periodic perturbatio...
Optical excitable devices that mimic neuronal behavior can be building-blocks of novel, brain-inspir...
This report presents a modern approach to the theoretical and experimental study of complex nonlinea...
Modeling complex systems from first principles could be a tantalizing task. Dynamical models of natu...
We present comprehensive numerically simulated scans of the spectral evolution of the output from a ...
This is a copy of the author 's final draft version of an article published in the journal European ...
The predictability of ultra-high pulses emitted by optically injected semiconductor lasers is studie...
© 2017 [Optical Society of America]. Users may use, reuse, and build upon the article, or use the ar...
Forecasting the dynamics of chaotic systems from the analysis of their output signals is a challengi...
Forecasting the dynamics of chaotic systems from the analysis of their output signals is a challengi...
We study experimentally the symbolic dyna-mics of a stochastic excitable optical system with externa...
Optical injection into a semiconductor laser is a promising technique for generating optical microwa...
We study sudden changes in the chaotic output of an optically injected semiconductor laser. For what...
Optically injected semiconductor lasers are known to display a rich variety of dynamic behaviours, i...
Rogue waves are devastating extreme events that occur in many natural systems, and a lot of work has...
We use statistical tools to characterize the response of an excitable system to periodic perturbatio...
Optical excitable devices that mimic neuronal behavior can be building-blocks of novel, brain-inspir...
This report presents a modern approach to the theoretical and experimental study of complex nonlinea...
Modeling complex systems from first principles could be a tantalizing task. Dynamical models of natu...
We present comprehensive numerically simulated scans of the spectral evolution of the output from a ...