Ultrafast fiber lasers have gained rapid advances in last decades for their intrinsic merits
such as potential of all-fiber format, excellent beam quality, superior power scalability, and …

Fiber lasers that generate ultrashort light pulses can offer practical advantages over solid-
state lasers for some applications. However, the achievement of high peak power with …

The so-called space-time analogy constitutes a source of inspiration to understand,
engineer, and implement new systems for ultrafast optical signal processing based on …

We use a supervised machine-learning model based on a neural network to predict the
temporal and spectral intensity profiles of the pulses that form upon nonlinear propagation in …

Hyperspectral stimulated Raman scattering (hsSRS) microscopy has recently emerged as a
powerful non-destructive technique for the label-free chemical imaging of biological …

We expand our previous analysis of nonlinear pulse sha** in optical fibres using machine
learning [Opt. Laser Technol., 131 (2020) 106439] to the case of pulse propagation in the …

We report an all-fiber free-running bidirectional dual-comb laser system for coherent anti-
Stokes Raman scattering spectroscopy based on spectral focusing. The mode-locked …

We propose and demonstrate the generation of 1.6 μm similaritons in all-fiber lasers with
two segments of different Er-doped fibers (EDFs), which can optimize the gain profile and …

We present comprehensive design rules to optimize the process of spectral compression
arising from nonlinear pulse propagation in an optical fiber. Extensive numerical simulations …

We present a general method to determine the parameters of nonlinear pulse sha**
systems based on pulse propagation in a normally dispersive fiber that are required to …