Litcius/Paper detail

Wavelength-switchable and multi-pulse bound state based on a hybrid mode-locked mechanism

Chong-Hao Wu, Yong Yao, Yu Yang, Xiao-Chuan Xu, Jia-Jun Tian, Ke Xu

2022Optics Express17 citationsDOIOpen Access PDF

Abstract

Relying on the nonlinear multimode interference in multimode fibers and the nonlinear polarization rotation, these two mode-locked techniques are combined in our proposed fiber laser. Stable optical soliton and multi-pulse regimes with a constant frequency of 11.44 MHz have been generated experimentally. Through altering intra-cavity conditions, bound-state pulses with diverse properties are observed. To the best of our knowledge, the obtained bound-state pulse constituted by more than thirty sub-pulses is achieved for the first time. Moreover, the center wavelength of bound-state pulse could be switched in a certain range covering the entire C band.

Topics & Concepts

OpticsMulti-mode optical fiberNonlinear systemPulse shapingPhysicsNonlinear opticsPolarization (electrochemistry)WavelengthSolitonSelf-phase modulationOptical fiberUltrashort pulsePulse (music)Pulse compressionBandwidth-limited pulseMaterials scienceCoupled mode theoryInterference (communication)Polarization mode dispersionPhotonic-crystal fiberFour-wave mixingModal dispersionPolarization-maintaining optical fiberMode-lockingRange (aeronautics)Fiber laserSupercontinuumUltrafast opticsRefractive indexUpper and lower boundsFemtosecond pulse shapingCross-phase modulationCross-polarized wave generationDispersion-shifted fiberZero-dispersion wavelengthPulse durationAdvanced Fiber Laser TechnologiesPhotonic Crystal and Fiber OpticsNonlinear Photonic Systems