Litcius/Paper detail

Vector soliton dynamics in a high-repetition-rate fiber laser

Wei Lin, Wenlong Wang, Bin He, Xuewen Chen, Xu Hu, Yuankai Guo, Yue Xu, Xiaoming Wei, Zhongmin Yang

2021Optics Express27 citationsDOIOpen Access PDF

Abstract

The existence of vector solitons that arise from the birefringence nature of optical fibers has been increasingly of interest for the stability of mode-locked fiber lasers, particularly for those operating in the high-fundamental-repetition-rate regime, where a large amount of fiber birefringence is required to restore the phase relation between the orthogonally polarized vector solitons, resulting in stable mode-locking free of polarization rotation. These vector solitons can exhibit diverse time-varying polarization dynamics, which prevent industrial and scientific applications requiring stable and uniform pulse trains at high fundamental repetition rates. This pressing issue, however, has so far been rarely studied. To this end, here we theoretically and experimentally dissect the formation of vector solitons in a GHz-repetition-rate fiber laser and investigate effective methods for suppressing roundtrip-to-roundtrip polarization dynamics. Our numerical model can predict both dynamic and stable regimes of high-repetition-rate mode-locking by varying the amount of fiber birefringence, resulting in the polarization rotation vector soliton (PRVS) and linearly polarized soliton (LPS), respectively. These dynamic behaviors are further studied by using an analytical approach. Interestingly, our theoretical results indicate a cavity-induced locking effect, which can be a complementary soliton trapping mechanism for the co-propagating solitons. Finally, these theoretical predications are experimentally verified, and we obtain both PRVS and LPS by adjusting the intracavity fiber birefringence.

Topics & Concepts

BirefringenceOpticsPolarization (electrochemistry)Fiber laserPhysicsLaserPolarization-maintaining optical fiberSolitonOrthogonal polarization spectral imagingMode-lockingOptical fiberNonlinear systemFiber optic sensorQuantum mechanicsChemistryPhysical chemistryAdvanced Fiber Laser TechnologiesPhotonic Crystal and Fiber OpticsLaser-Matter Interactions and Applications