Multimode fiber (MMF) lasers are emerging as a remarkable testbed to study nonlinear
spatiotemporal physics with potential applications spanning from high energy pulse …

This tutorial–review on applications of artificial neural networks in photonics targets a broad
audience, ranging from optical research and engineering communities to computer science …

A paper is presented of artificial saturable absorbers as applied in fibre lasers. Shown are
the advantages and drawbacks of this saturable absorber type in comparison with material …

The overall goal of photonics research is to understand and control light in new and richer
ways to facilitate new and richer applications. Many major developments to this end have …

Multimode fibers (MMFs) have attracted interest because of their larger mode area and
additional spatial degrees of freedom compared with single-mode fibers. Recently, MMFs …

Understanding dynamical complexity is one of the most important challenges in science.
Significant progress has recently been made in optics through the study of dissipative soliton …

Nonlinear polarization evolution-based passively mode-locked fiber lasers with ultrafast and
high peak power pulses are a powerful tool for engineering applications and scientific …

In this work, we investigate VSe2 for generating femtosecond and large energy mode-locked
laser pulses for the first time. Two types of VSe2 based saturable absorbers (SAs), microfiber …

Ultrafast Raman fiber laser has been proved to be an effective method to obtain ultrafast
optical pulses at special wavelength. Yet, compared with conventional rare-earth doped …

Abstract Mid‐infrared (mid‐IR) ultrafast lasers are widely employed in biomedicine,
molecular spectroscopy, material processing, and nonlinear optics. With the improvement of …