作 者:BYUNGJOO KIM SEONGJIN HONG JAEDEOK PARK YONGSOO LEE DONG-IL YEOM KYUNGHWAN OH
机构地区:[1]Photonic Device Physics Laboratory,Institute of Physics and Applied Physics,Yonsei University,Seoul 03722,South Korea [2]Department of Physics and Energy Systems Research,Ajou University,Suwon 16499,South Korea
出 处:《Photonics Research》2020年第8期1324-1332,共9页光子学研究(英文版)
基 金:National Research Foundation of Korea(NRF2019R1A2C2011293).
摘 要:A new method to make an all-fiber nonlinear optic device for laser pulse generation is developed by depositing multi-layer graphene oxide(GO)selectively onto the core of the cleaved fiber facet by combining the electrical arc discharge and the laser-driven self-exfoliation.Using the GO colloid droplet with sub-nanoliter volume,we obtained a GO bulk layer deposited on a fiber facet of the order of milliseconds by using an electric arc.The prepared fiber facet was then included in an Er-doped fiber laser(EDFL)cavity and we obtained a few layers of GO having nonlinear optic two-dimensional(2D)characteristics selectively on the fiber core by the laser-driven self-exfoliation.The 2D GO layers on the fiber core served as a stable and efficient saturable absorber enabling robust pulse train generation atλ�1600.5 nm,the longest Q-switched laser wavelength in EDFLs.Pulse characteristics were analyzed as we varied the pump power atλ�980 nm from 105.2 mW to 193.6 mW,to obtain the maximum repetition rate of 17.8 kHz and the maximum output power of 2.3 mW with the minimum pulse duration of 7.8μs.The proposed method could be further applied to other novel inorganic 2D materials opening a window to explore their novel nonlinear optic laser applications.
关 键 词:FIBER laser SWITCHED
分 类 号:TN248[电子电信—物理电子学]
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