石墨烯
材料科学
饱和吸收
光纤激光器
剥脱关节
模式锁定
超短脉冲
皮秒
光电子学
激光器
拉曼光谱
光学
消光比
纳米技术
波长
物理
作者
You Min Chang,Hyung‐Seok Kim,Ju Han Lee,Yong‐Won Song
摘要
An efficiently prepared graphene from a bulk graphite using mechanical exfoliation is experimentally investigated for the first practical application to ultrafast photonics. Overcoming the limitations of the method in its size and atomic layer control, the multilayered graphene guarantees a nonlinear intensity modulation. After confirming its excellent crystal quality and few-layered nanostructure employing Raman analysis and atomic force microscopy the graphene layer is introduced into a fiber laser as an intracavity saturable absorber to realize the passive mode-locking that produces picosecond pulses at the repetition rate of 10.9 MHz. Extinction ratio of the resultant pulsed output is higher than 40 dB.
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