Tuning the period of square-wave oscillations for delay-coupled optoelectronic systems

Martínez-Llinàs, Jade; Colet, Pere; Erneux, Thomas
Physical Review E 89, 042908 (1-11) (2014)

We analyze the response of two delay-coupled optoelectronic oscillators.
Each oscillator operates under its own delayed feedback. We show that the
system can display square-wave periodic solutions which can be synchronized
in-phase or out-of-phase depending on the ratio between self- and cross-
delay times. Furthermore, we show that multiple periodic synchronized
solutions can coexist for the same values of the fixed parameters. As a
consequence, it is possible to generate square-wave oscillations with
different periods by just changing the initial conditions.

Additional files


Related research projects

TRIPHOP

Towards brain-inspired efficient photonic information processing

I.P.: Ingo Fischer
Information processing is a major challenge in our information-driven society, and the demand will grow further in the future. Large amounts of data need to be processed in communication networks, but also …

DeCoDicA

Delay-Coupled Diode Lasers for Photonic Applications

I.P.: Ingo Fischer
This project is aimed at the exploration of the potential of delay-coupled semiconductor lasers for high-bit-rate random number generation and secure key distribution. These applications of chaos have a high potential to …

PHOCUS

Towards a PHOtonic liquid state machine based on delay-CoUpled Systems

I.P.: Claudio Mirasso
The aim of this project is to design and implement a photonics realization of a liquid state machine (LSM), with the potential for versatile and fast signal handling. We target to achieve …

This web uses cookies for data collection with a statistical purpose. If you continue Browse, it means acceptance of the installation of the same.


Más información De acuerdo