Generation and categories of solitons in various mode-locked fiber lasers
B Gao, RH Zhang, JY Huo, CY Ma, Y Han, QR Hou… - Optik, 2020 - Elsevier
Optical solitons generated from fiber lasers have been extensively investigated for their
good stability, narrow pulse width and high peak power, which play an indispensable role in …
good stability, narrow pulse width and high peak power, which play an indispensable role in …
Advanced progress on χ (3) nonlinearity in chip-scale photonic platforms
χ (3) nonlinearity enables ultrafast femtosecond scale light-to-light coupling and
manipulation of intensity, phase, and frequency. χ (3) nonlinear functionality in micro-and …
manipulation of intensity, phase, and frequency. χ (3) nonlinear functionality in micro-and …
Generating few-cycle pulses with integrated nonlinear photonics
Ultrashort laser pulses that last only a few optical cycles have been transformative tools for
studying and manipulating light–matter interactions. Few-cycle pulses are typically produced …
studying and manipulating light–matter interactions. Few-cycle pulses are typically produced …
Tapered photonic crystal fiber based on artificial intelligence-design for pulse compression
Z Gu, T Ning, H Hou, L Pei, C Wang, J Li… - Optics & Laser …, 2025 - Elsevier
In this study, we employ a deep neural network (DNN) to achieve rapid prediction of
dispersion and effective mode area in Pb-silicate photonic crystal fiber. Subsequently, this …
dispersion and effective mode area in Pb-silicate photonic crystal fiber. Subsequently, this …
Nearly self-similar pulse compression of high-repetition-rate pulse trains in tapered silicon waveguides
We numerically demonstrate a feasible way to generate a high-repetition-rate ultrashort
soliton train from a dual frequency beat signal on a chip-scale silicon waveguide. A train of …
soliton train from a dual frequency beat signal on a chip-scale silicon waveguide. A train of …
Theoretical investigation of ultra-high quality factor RI-sensor using compressed optical pulse and high negative dispersion structure for IoT applications
Efficiently use of resources for various applications requires the design of structures with
multiple capabilities. Herein, we present a multi-function optical structure to compensate the …
multiple capabilities. Herein, we present a multi-function optical structure to compensate the …
Generation of an ultrashort pulse train through ultrafast parity-time symmetry switching
W Wang, Y Zhang, B Li, J Wang, J Ma, P Yuan… - Optics …, 2023 - opg.optica.org
We propose a scheme for the direct generation of an ultrashort pulse train as well as the
further compression of pulsed lasers based on the nonlinearity inherent to parity-time (PT) …
further compression of pulsed lasers based on the nonlinearity inherent to parity-time (PT) …
Optimization of mid-infrared dispersive wave generation at 3 µm in LiNbO3 waveguides
We propose an effective scheme to enhance mid-infrared dispersive wave (DW) emission,
which includes dispersion engineering of the waveguide and the assistance of a CW trigger …
which includes dispersion engineering of the waveguide and the assistance of a CW trigger …
[HTML][HTML] Giant anomalous self-steepening and temporal soliton compression in silicon photonic crystal waveguides
J Liao, Y Tan, Y Gao, Z Wang, Y Sun, L Ma, X Li - APL Photonics, 2021 - pubs.aip.org
Self-steepening (SS) is enhanced by slow-light effects in photonic crystal waveguides
(PhCWs), with coefficients as large as hundreds of femtoseconds, and it plays an important …
(PhCWs), with coefficients as large as hundreds of femtoseconds, and it plays an important …
Simultaneous pulse combination and nearly self-similar pulse compression in tapered silicon waveguides at around 2.0 μm
Nonlinear pulse compression technology permits practitioners to produce ultrashort pulses
for integrated frequency comb generation and optical coherence tomography. However, on …
for integrated frequency comb generation and optical coherence tomography. However, on …