Description
Synchronization between self-sustained oscillators is typically limited by frequency detuning and the coupling strength. Through theoretical analysis of coupled van der Pol oscillators and experimental validation with LC oscillators, we demonstrate that dissipative interactions significantly broaden the frequency-locking range compared to purely coherent coupling. Furthermore, hybrid coupling regimes unlock an even wider synchronization region characterized by asymmetric amplitudes. These findings establish dissipative interactions as a critical and efficient control parameter for enhancing robust synchronization in oscillatory systems.
Primary author
祥山 曾
(复旦大学)
