摘要
Bidirectional ultrafast fiber lasers present an attractive solution,enabling the generation of two mutually coherent ultrashort pulse trains in a simple and turnkey system.Still,the lack of a comprehensive numerical model describing steady-state bidirectional generation,and even less ultrafast soliton breakdowns and collisions,is obstructing the achievement of the performance compared with unidirectional lasers.In this paper,we have experimentally investigated real-time build-up dynamics of counter-propagating solitons in an ultrafast ring Er-doped fiber laser via the dispersive Fourier transform methodology.We parade that counter-propagating pulses experience independent build-up dynamics from modulation instability,undergoing breathing dynamics and diverging subordinate pulse structure formation and annihilation to a stable bidirectional pulse train.Yet,the interaction of pulses in the cavity presents the key underlying phenomenon driving formation evolution distinct from unidirectional pulse build-up.Our findings will provide physical foundations for bidirectional ultrafast fiber laser design to carry forward their application.
基金
Royal Academy of Engineering and Global Challenges Research Fund
H2020 Marie Sklodowska-Curie Actions(COFUND-MULTIPLY).