Litcius/Paper detail

Q-switched and vector soliton pulses from an Er-doped fiber laser with high stability based on a γ-graphyne saturable absorber

Qingbo Wang, Zhuo Li, Pan Wang, Qiaoqiao Xu, Zhiwei Zhang, Zhi Wang, Yi Huang, Yange Liu

2023Nanoscale14 citationsDOIOpen Access PDF

Abstract

-doped fiber laser (EDFL), Q-switching and mode-locking operation with high stability are realized. Also, the mode-locking pulses are verified to be polarization-locked vector solitons (PLVSs) based on further study. With increasing pump power, the phase difference between the two orthogonal components increases, leading to the evolution of state of polarization (SOP). Additionally, the degrees of polarization (DOPs) are measured and all reach more than 97%, meaning high polarization stability. Therefore, this work not only broadens the application scope of γ-GY in ultrafast photonics, but also provides an important foundation for the study of soliton dynamics.

Topics & Concepts

Saturable absorptionMaterials scienceUltrashort pulseFiber laserPhotonicsPolarization (electrochemistry)LaserOptoelectronicsGraphyneGrapheneSolitonDopingOpticsNonlinear systemNanotechnologyPhysicsChemistryQuantum mechanicsWavelengthPhysical chemistryAdvanced Fiber Laser TechnologiesLaser-Matter Interactions and ApplicationsNonlinear Photonic Systems
Q-switched and vector soliton pulses from an Er-doped fiber laser with high stability based on a γ-graphyne saturable absorber | Litcius