利用二维平面氧化石墨烯-二硫化钼薄膜功能化的微光纤结腔进行光纤激光器的模式选择

IF 2.7 3区计算机科学 Q2 ENGINEERING, ELECTRICAL & ELECTRONIC Optical Fiber Technology Pub Date : 2025-03-01 Epub Date: 2025-01-27 DOI:10.1016/j.yofte.2025.104142

Xinyu Chen, Jiale Xie, Hongdan Wan, Zijia Zhou, Xueying Lin, Jingli Wang, Taoping Hu

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引用次数: 0

摘要

提出并演示了一种由二维平面形状氧化石墨烯-二硫化钼复合膜（GMCF）功能化的微光纤结谐振器（MKR）选择的柔性光纤激光模式。据我们所知，这是第一篇利用新型传递方法在低损耗MKR上形成二维平面型GMCF用于光纤环形腔选模的报道。由于表面张力和再循环流的作用，二维GMCF在MKR表面形成，具有较高的稳定性。利用GMCF的饱和吸收效应，实现了单波长输出的锁模光纤激光操作。脉冲周期为118.14 ns，重复频率为8.464 MHz。此外，使用GMCF-MKR作为窄带滤波器实现了单波长可调谐激光，其侧模抑制比为53 dB， 3db带宽为<；0.02 dB和波长调谐范围从1551.6 nm到1552.6 nm。采用二维平面形状GMCF-MKR柔性光纤激光器将在分布式光纤传感、激光相干通信和光学精密测量等领域具有广泛的应用前景。

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Mode-selection of a fiber laser using a microfiber knot resonator functionalized with 2D planar-shaped GO-MoS2 film

A flexible fiber laser mode-selected by a microfiber knot resonator (MKR) functionalized with 2D planar-shaped graphene-oxide (GO)-MoS₂ composite film (GMCF) is proposed and demonstrated. As far as we know, this is the first report of using novel transferring method for forming 2D planar-shaped GMCF on a low-loss MKR for mode-selection in fiber ring cavity. The 2D GMCF is formed on the surface of MKR with high stability due to effects of surface tension and recirculation flow. Mode-locked fiber laser operation with single-wavelength output is realized by saturable absorption effect of the GMCF. The pulse period and repetition frequency are 118.14 ns and 8.464 MHz, respectively. In addition, single-wavelength, tunable lasing using the GMCF-MKR as narrow-bandwidth filter is achieved with a side-mode suppression ratio of 53 dB, a 3 dB bandwidth of < 0.02 dB and a wavelength tuning range from 1551.6 nm to 1552.6 nm. The proposed flexible fiber laser using the 2D planar-shaped GMCF-MKR will have a wide range of applications in the fields of distributed fiber sensing, laser coherent communication and optical precision measurement.

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来源期刊

Optical Fiber Technology 工程技术-电信学

CiteScore

4.80

自引率

11.10%

发文量

327

审稿时长

63 days

期刊介绍： Innovations in optical fiber technology are revolutionizing world communications. Newly developed fiber amplifiers allow for direct transmission of high-speed signals over transcontinental distances without the need for electronic regeneration. Optical fibers find new applications in data processing. The impact of fiber materials, devices, and systems on communications in the coming decades will create an abundance of primary literature and the need for up-to-date reviews. Optical Fiber Technology: Materials, Devices, and Systems is a new cutting-edge journal designed to fill a need in this rapidly evolving field for speedy publication of regular length papers. Both theoretical and experimental papers on fiber materials, devices, and system performance evaluation and measurements are eligible, with emphasis on practical applications.