Synchronization of self-switching phenomena on full-coupled chaotic oscillators

In the state of generating a double-scroll attractor, an oscillator switches between two subspaces without external force. This switching phenomenon is called the "self-switching phenomenon". We recognize that investigations of the behavior of self-switching phenomena on full-coupled chaotic oscillators are important problems in order to clarify spatiotemporal phenomena in real physical systems. In this paper, we investigate the behavior of self-switching phenomena on full-coupled chaotic oscillators. In the system, we can observe that all chaotic oscillators switch the subspace synchronously. We call this "synchronization of self-switching phenomena". Synchronization of self-switching phenomena is generated when oscillators are asynchronized. This synchronization of self-switching phenomena is the first observation of the existence of order in the asynchronization of chaos, which means disorder of states.