Frequency combs are having a broad impact on science and technology because they
provide a way to coherently link radio/microwave-rate electrical signals with optical-rate …

The commonly used Lorentzian form of the Raman response function for studying
propagation of ultrashort pulses in silica fibers does not properly account for the shoulder in …

Dissipative Kerr cavity solitons experience a so-called self-frequency shift (SFS) as a result
of Raman interactions. The frequency shift has been observed in several microcavity …

The rapid development of the optical-cycle-level ultra-fast laser technologies may break
through the bottleneck of the traditional ultra-intense laser [ie, Petawatt (PW, 1015 W) laser …

A new type of microstructured fiber for mid-infrared light is introduced. The chalcogenide
glass-based microporous fiber allows extensive dispersion engineering that enables design …

Using the generalized nonlinear Schrödinger equation, we investigate how the effect of self-
steepening and Raman-induced self-frequency shift impact higher-order rogue-wave …

We propose an on-chip optical-power delivery system for dielectric laser accelerators based
on a fractal “tree-network” dielectric waveguide geometry. This system replaces …

Using a generalized nonlinear Schrödinger equation, we investigate the transformation of a
fundamental rogue wave solution to a collection of solitons. Taking the third-order …

We derive an analytical formulation of the Raman-induced frequency shift experienced by a
fundamental soliton. By including propagation losses, self-steepening, and dispersion slope …

The dynamics of a soliton propagating in a single-mode optical fiber with gain, loss, and
Raman coupling to thermal phonons is analyzed. Using both soliton perturbation theory and …