Bistable analytic-phase synchronization in strongly-competing chaotic lasing modes

Details Bistable analytic-phase synchronization in strongly-competing chaotic lasing modes Bistable analytic-phase synchronization in strongly-competing chaotic lasing modes

2004-10-05

arxiv.org/abs/nlin/0410004v2

Nonlinear Sciences

Chaotic Dynamics

6 pages, revised mechanism for the loss of chaotic phase synchronization, changed Fig.2, three new figures: Figs.3-5

Scientific paper

We theoretically study analytic-phase synchronization in strongly-competing oscillator systems. Using the example of composite-cavity modes coupled via a class-B laser active medium, we discover that inherent chaotic phase synchronization can arise concurrently at two different chaotic attractors, leading to bistable phase-synchronized solutions. In our example, the underlying mechanism for bistability and inherent phase synchronization is population pulsation within the active medium.

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