Coupling-Dependent Switching Between Synchronization Regimes in Feedback Time Delays Laser System
Abstract
We study a model for two lasers that are mutually coupled opto-electronically by modulating the pump of one laser with the intensity deviations from the steady-state output of the other. Such a model is analogous to the equations describing the spread of certain diseases such as dengue epidemics in human populations coupled by migration, transportation, etc. In this report we consider the possibility of both in-phase (complete) and anti-phase (inverse) synchronization between the above-mentioned laser models. Depending on the coupling rates between the systems a transition from the in-phase (complete) synchronization to the anti-phase (inverse) synchronization might occur. The results are important for the disruption of the spread of the certain infectious diseases in human populations.
Cite
@article{arxiv.1008.2387,
title = {Coupling-Dependent Switching Between Synchronization Regimes in Feedback Time Delays Laser System},
author = {E. M. Shahverdiev and P. A. Bayramov and K. A. Shore},
journal= {arXiv preprint arXiv:1008.2387},
year = {2024}
}
Comments
10 pages, including 3 figures