掺铋磷硅酸盐光纤制备1.3/1.4µm随机光纤激光器

IF 3.3 2区 物理与天体物理 Q2 OPTICS Chinese Optics Letters Pub Date : 2023-01-01 DOI:10.3788/col202321.071401
Hang Wang, Wencheng Jia, Yongjia Yao, Xinyun Yang, M. Melkumov, S. Firstov, A. Lobanov, Zhipeng Dong, Zhengqian Luo
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引用次数: 1

摘要

利用掺铋磷硅酸盐光纤成功制备了1.3/1.4 μ m的随机光纤激光器。在最大输出功率549.30 mW时,双掺杂RFL表现出良好的长期运行稳定性,在1 h内的标准偏差约为0.34%,斜率效率约为29.21%。双掺磷硅酸盐光纤的发射光谱范围为1.28 ~ 1.57 μ m,表明其可以在该波段内调谐。在这里,我们展示了波长可调谐的光纤激光器,其波长为1.3/1.4 μ m,通过使用光纤布拉格光栅或可调谐滤波器实现。与传统激光光源相比,RFL使图像的散斑对比度降低了11.16%。由于其高稳定性、紧凑的尺寸和高效率,该RFL在生物医学成像、通信和传感器应用中具有很高的应用前景。
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Generation of 1.3/1.4 µm random fiber laser by bismuth-doped phosphosilicate fiber
We have successfully generated a 1.3/1.4 μ m random fiber laser (RFL) using bismuth (Bi)-doped phosphosilicate fiber. The Bi-doped RFL has shown excellent long-term operational stability with a standard deviation of approximately 0.34% over 1 h at a maximum output power of 549.30 mW, with a slope efficiency of approximately 29.21%. The Bi-doped phosphosilicate fiber offers an emission spectrum ranging from 1.28 to 1.57 μ m, indicating that it can be tuned within this band. Here, we demonstrated a wavelength-tuning fiber laser with a wavelength of 1.3/1.4 μ m, achieved through the using of a fiber Bragg grating or a tunable filter. Compared to traditional laser sources, the RFL reduces the speckle contrast of images by 11.16%. Due to its high stability, compact size, and high efficiency, this RFL is highly promising for use in biomedical imaging, communication, and sensor applications.
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来源期刊
Chinese Optics Letters
Chinese Optics Letters 物理-光学
CiteScore
5.60
自引率
20.00%
发文量
180
审稿时长
2.3 months
期刊介绍: Chinese Optics Letters (COL) is an international journal aimed at the rapid dissemination of latest, important discoveries and inventions in all branches of optical science and technology. It is considered to be one of the most important journals in optics in China. It is collected by The Optical Society (OSA) Publishing Digital Library and also indexed by Science Citation Index (SCI), Engineering Index (EI), etc. COL is distinguished by its short review period (~30 days) and publication period (~100 days). With its debut in January 2003, COL is published monthly by Chinese Laser Press, and distributed by OSA outside of Chinese Mainland.
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