孤子
材料科学
超短脉冲
剥脱关节
兴奋剂
光子学
激光器
光电子学
光纤激光器
光纤
饱和吸收
纤维
硫系化合物
纳米技术
光学
非线性系统
石墨烯
物理
波长
复合材料
量子力学
作者
Tianci Feng,Dan Zhang,Xiaohui Li,Qyyum Abdul,Zhaojiang Shi,Jiangbo Lu,Penglai Guo,Ying Zhang,Jishu Liu,Qi Jie Wang
标识
DOI:10.1021/acsanm.9b02194
摘要
Stannic sulfide (SnS2), a latterly developed two-dimensional (2D) material, has fascinated scientists because it can be widely applied to materials chemistry, biomedicine, photocatalysis, and so on. Especially, SnS2 has the advantages of adjustable band gap and good oxidation resistance, which indicates that this material has promising potential in nonlinear optics. However, the light interaction with SnS2 is rarely investigated. In this study, high-quality SnS2 nanosheets (Ns) developed through a liquid phase exfoliation approach have been applied in ultrafast photonics for nonlinear processes. This fabrication approach can greatly increase the damage threshold of the SnS2 saturable absorber (SA). Furthermore, the SnS2 SA device is applied to an erbium-doped fiber laser (EDFL) to obtain soliton molecules with different orders. Ultimately, eleventh-order soliton molecules, the highest order of soliton molecules through SnS2, are generated with a soliton separation of 8 ps and a spectral modulation period of around 1 nm. The above experimental results indicate that SnS2 has broad application prospects in the fields of mode-locked fiber laser and optical fiber communication.
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