Ti2O-Based Saturable Absorbers: From Material Synthesis to Broadband Mode-Locked Fiber Laser Applications
Guokai Dai, Yuanxiao Qu, Jinjuan Cheng, Chengcheng He, Wei Xu, Luo Yan, Jia GuoSaturable absorbers (SAs) are critical for passive mode-locking in ultrafast fiber lasers. Although many materials have been studied as SAs, new candidates with broadband and stable performance are still needed. In this work, we report the synthesis and fabrication of Ti2O-based SAs and present the first systematic investigation of their performance in broadband ultrafast fiber lasers. Specifically, phase-pure Ti2O crystals were synthesized via solid-state sintering. High-performance Ti2O SAs were then fabricated through a photodeposition method. The balanced synchronous twin-detector measurement method demonstrated that Ti2O exhibited obvious and stable saturable absorption behavior. To validate their broadband mode-locking capability, the as-prepared Ti2O SAs were integrated into the Yb-doped and Er-doped fiber lasers, respectively. Experimental results show that both laser systems deliver stable pulsed output, with pulse durations of 441.7 ps at 1 μm and 522.5 fs at 1.5 μm. This work pioneers the application of Ti2O in ultrafast photonics, and provides an important reference and novel research insights for the design and development of advanced broadband optical devices and systems.