Phase synchronization transitions in two different coupled chaotic systems (Rössler and Lorentz) are investigated and shown to be well described by a reduced model of an overdamped periodically driven nonlinear oscillator with a time varying coefficient. In both systems, the phase separation increases with 2π phase jumps below the transition. The scaling rules of the jump near and away from the transition are studied: Near the transition the average interval between two successive jumps follows ln(l)∼−(ε5ε)1/2, while away from the transition(l)∼(εt−ε)−1/2 for both systems.
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ASJC Scopus subject areas
- General Physics and Astronomy