Chaotic synchronization of coupled nonlinear systems using synthetic temporal lattices

We propose an efficient synchronization scheme for two coupled chaotic systems consisting of synthetic temporal lattices. By directly coupling the feedback circuits of two identical temporal systems via a variable optical coupler, we establish a bidirectional and tunable synchronization mechanism. The synchronization is governed by a well-defined coupling angle, enabling precise control over performance and convergence speed without stringent initial condition matching. The system supports high-quality intermittent synchronization and features a specific coupling condition for rapid convergence. The scheme is inherently scalable to multi-system networks. This work provides a practical and flexible platform for robust synchronization, with potential applications in secure optical communications.