Your search keyword '"Desheng Zhao"' showing total 3 results

1. Generation and optimization of 2-μm square-wave noise-like pulses in a modified figure-eight fiber laser

Author

Desheng Zhao, Wanzhuo Ma, Tianshu Wang, Runmin Liu, and Yiwu Zhao

Subjects

Materials science, Optical isolator, business.industry, Isolator, General Engineering, Square wave, Noise (electronics), Atomic and Molecular Physics, and Optics, law.invention, Optics, Signal-to-noise ratio, Mode-locking, law, Fiber laser, Dispersion (optics), business

Abstract

We present the generation and optimization of square-wave noise-like pulses (NLPs) in a mode-locked Tm-doped fiber laser. Mode-locking operation around the 2-μm band is achieved by a nonlinear amplifying loop mirror. To optimize the output performance, the figure-eight cavity is modified by employing a polarization-dependent isolator in a unidirectional loop, and the cavity length is only 17.2 m. First, by employing a cavity with pure anomalous dispersion, a conventional soliton can evolve into a square-wave NLP by properly setting the pump power and polarization controllers. The pulse energy of the fundamental-frequency operation can be varied from 2.29 to 3.4 nJ. Using an ultrahigh-numerical-aperture fiber to reduce the net dispersion to −1.033 ps2, the 3-dB bandwidth of the spectrum is broadened to 14.78 nm, and the duration of the autocorrelation spike is only 421 fs. The maximum single-pulse energy can increase up to 4.97 nJ. Due to dispersion management mechanism, the threshold and output power are also significantly improved.

Published

2020

2. Generation of dispersion-managed solitons with sidebands in a 2-μm mode-locked fiber laser

Author

Desheng Zhao, Wanzhuo Ma, Runmin Liu, Peng Lin, and Tianshu Wang

Subjects

Physics, business.industry, Optical engineering, General Engineering, Physics::Optics, Polarization (waves), Atomic and Molecular Physics, and Optics, Mode locked fiber laser, Nonlinear Sciences::Exactly Solvable and Integrable Systems, Optics, Mode-locking, Fiber laser, Soliton, Oscilloscope, business, Nonlinear Sciences::Pattern Formation and Solitons, Linear phase

Abstract

We have experimentally obtained dispersion-managed solitons with sidebands in a passively mode-locked thulium-doped fiber laser. The stable single soliton with sidebands can be converted into two soliton pulses at the pump power of 867 mW with appropriate settings of the polarization controllers (PCs). By increasing the pump power and cautiously adjusting the PCs, the three, four, and five soliton pulses with nonuniform intensity operate with stability in the cavity due to the global soliton interaction caused by unstable continuous waves. Furthermore, the soliton bunch can be observed at the pump power of 1 W. The position of solitons in the soliton bunch is random with a fixed separation that is controllable by changing the linear phase delay. Our work gives insight into the dynamics of multipulse dispersion-managed solitons in a 2-μm mode-locked fiber laser.

Published

2019

3. Generation of dispersion-managed solitons with sidebands in a 2-μm mode-locked fiber laser.

Author

Peng Lin, Tianshu Wang, Wanzhuo Ma, Runmin Liu, and Desheng Zhao

Subjects

MODE-locked lasers, FIBER lasers, SOLITONS

Abstract

We have experimentally obtained dispersion-managed solitons with sidebands in a passively modelocked thulium-doped fiber laser. The stable single soliton with sidebands can be converted into two soliton pulses at the pump power of 867 mW with appropriate settings of the polarization controllers (PCs). By increasing the pump power and cautiously adjusting the PCs, the three, four, and five soliton pulses with nonuniform intensity operate with stability in the cavity due to the global soliton interaction caused by unstable continuous waves. Furthermore, the soliton bunch can be observed at the pump power of 1 W. The position of solitons in the soliton bunch is random with a fixed separation that is controllable by changing the linear phase delay. Our work gives insight into the dynamics of multipulse dispersion-managed solitons in a 2-μm mode-locked fiber laser. [ABSTRACT FROM AUTHOR]

Published

2019