Optical chaos is vital for various applications such as private communication, encryption, anti-
interference sensing, and reinforcement learning. Chaotic microcombs have emerged as …

Microcombs based on Turing patterns have been extensively studied in configurations that
can be modeled by the Lugiato-Lefever equation. Typically, such schemes are implemented …

In this paper, we study the influence of second neighbors interactions on a one-dimensional
nonlinear electrical transmission line. Using the reductive perturbation method in the semi …

We present a survey of some recent theoretical and experimental studies on nonlinear
waves that form and propagate in a broad class of optical and matterwave media. The article …

Understanding the phenomenon of rogue wave formation, often called extreme waves, in
diverse branches of nonlinear science has become one of the most attractive domains …

The transition to chaos is ubiquitous in nonlinear systems ranging from fluid dynamics and
superconducting circuits to biological organisms. Optical systems driven out of equilibrium …

Extreme waves are intense and unexpected wavepackets ubiquitous in complex systems. In
optics, these rogue waves are promising as robust and noise-resistant beams for probing …

Recent advances in the study of synthetic dimensions revealed a possibility to employ the
frequency space as an additional degree of freedom which allows for investigating and …

Exceptional points are a ubiquitous concept widely present in driven-dissipative coupled
systems described by a non-Hermitian Hamiltonian. To date, exceptional points have been …

Modulation instability (MI) in the presence of noise typically leads to an irreversible and
complete disintegration of a plane wave background. Here we report on experiments …