The nonlinear Talbot effect of counterpropagating rogue waves
摘要
Using numerical simulations, we analyze the dynamics that arise from the interaction of two counterpropagating Akhmediev-like breathers. In the low-intensity regime, the system supports the emergence of nonlinear Talbot carpets with high spatial regularity. As the propagation distance and excitation strength increase, more complex yet robust Talbot patterns develop, including dipole- and tripole-type configurations. These spatial structures, reported here for the first time, remain stable over extended propagation ranges. Finally, we identify and discuss the parameter regimes that enable the existence of such nonlinear interference patterns.