Ternary transition metal dichalcogenides for high power vector dissipative soliton ultrafast fiber laser
L Li, L Pang, R Wang, X Zhang, Z Hui… - Laser & Photonics …, 2022 - Wiley Online Library
Abstract 2D ternary transition metal dichalcogenides (TMDCs) have been studied widely by
researchers from the fields of nanotechnology to materials science because of the …
researchers from the fields of nanotechnology to materials science because of the …
Carbon nanotube mode-locked fiber lasers: recent progress and perspectives
L Dai, Z Huang, Q Huang, C Zhao, A Rozhin… - …, 2020 - degruyter.com
Carbon nanotubes (CNTs) possess remarkable nonlinear optical properties; a particular
application is to function as a mode locker used in ultrafast fiber lasers to produce ultrashort …
application is to function as a mode locker used in ultrafast fiber lasers to produce ultrashort …
Chromium oxide film for Q-switched and mode-locked pulse generation
L Li, J Cheng, Q Zhao, J Zhang, H Yang, Y Zhang… - Optics …, 2023 - opg.optica.org
Chromium oxide (Cr_2O_3) is a promising material used in the applications such as
photoelectrochemical devices, photocatalysis, magnetic random access memory, and gas …
photoelectrochemical devices, photocatalysis, magnetic random access memory, and gas …
Real‐time investigation of ultrafast dynamics through time‐stretched dispersive fourier transform in mode‐locked fiber lasers
Real‐time investigation in mode‐locked fiber lasers (MLFLs) is important to understand the
ultrafast dynamics before, during, and after the formation of stable laser pulses. However …
ultrafast dynamics before, during, and after the formation of stable laser pulses. However …
Deep Learning for Dynamic Modeling and Coded Information Storage of Vector‐Soliton Pulsations in Mode‐Locked Fiber Lasers
ZZ Si, DL Wang, BW Zhu, ZT Ju… - Laser & Photonics …, 2024 - Wiley Online Library
Soliton pulsations are ubiquitous feature of non‐stationary soliton dynamics in mode‐locked
lasers and many other physical systems. To overcome difficulties related to a huge amount …
lasers and many other physical systems. To overcome difficulties related to a huge amount …
Ultrafast Photonics of Ternary RexNb(1–x)S2 in Fiber Lasers
L Pang, Z Sun, Q Zhao, R Wang, L Yuan… - … Applied Materials & …, 2021 - ACS Publications
Two-dimensional (2D) transition metal chalcogenides (TMCs) become more attractive upon
addition of a third element owing to their unique structure and remarkable physical and …
addition of a third element owing to their unique structure and remarkable physical and …
On-demand harnessing of photonic soliton molecules
Soliton molecules (SMs) are fundamentally important modes in nonlinear optical systems. It
is a challenge to experimentally produce SMs with the required temporal separation (TS) in …
is a challenge to experimentally produce SMs with the required temporal separation (TS) in …
Synchronization, desynchronization, and intermediate regime of breathing solitons and soliton molecules in a laser cavity
We report on the experimental and numerical observations of synchronization and
desynchronization of bound states of multiple breathing solitons (breathing soliton …
desynchronization of bound states of multiple breathing solitons (breathing soliton …
Heteronuclear multicolor soliton compounds induced by convex-concave phase in fiber lasers
Optical solitons emerging from fiber resonators generally possess similar properties that
hinge on the system parameters. However, the generation of wavepackets composed of …
hinge on the system parameters. However, the generation of wavepackets composed of …
Breathing dissipative soliton explosions in a bidirectional ultrafast fiber laser
Soliton explosions, among the most exotic dynamics, have been extensively studied on
parameter invariant stationary solitons. However, the explosion dynamics are still largely …
parameter invariant stationary solitons. However, the explosion dynamics are still largely …