Antiphase Synchronization in Environmentally coupled Rossler Oscillators
Abstract
We study the manifestation of antiphase synchronization in a system of n Rossler Oscillators coupled through a dynamic environment. When the feedback from system to environment is positive (negative) and that from environment to system is negative (positive), the oscillators enter into a state of anti phase synchronization both in periodic and chaotic regimes. Their phases are found to be uniformly distributed over 2, with a phase lag of 2 /n between neighbors as is evident from the similarity function and the phase plots. The transition to anti phase synchronization is marked by the crossover of (n-1) zero Lyapunov Exponents to negative values. If the systems are individually in chaotic phase, with strong enough coupling they end up in periodic states which are in antiphase synchronization
Cite
@article{arxiv.0812.3753,
title = {Antiphase Synchronization in Environmentally coupled Rossler Oscillators},
author = {G. Ambika and Sheekha Verma},
journal= {arXiv preprint arXiv:0812.3753},
year = {2008}
}
Comments
3 pages, 6 figures