Enhancement of far-infrared laser damage threshold in Ge-As-Se glass fiber.

IF 3.2 2区 物理与天体物理 Q2 OPTICS Optics express Pub Date : 2024-11-04 DOI:10.1364/OE.542321
Qinnan Fang, Weisheng Xu, Keke Chen, Yuyang Wang, Kai Jiao, Shengchuang Bai, Shixun Dai, Xunsi Wang
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Abstract

The application of As-Se chalcogenide glasses in high-power laser delivery is hindered by their low damage threshold due to their weak chemical bonds. To solve this, we introduced germanium elements into the As-Se glasses and optimized the composition to raise the glass transition temperature (Tg) and enhance the laser damage threshold (LDT). From the correlation among various parameters including Tg, LDT, and fiber loss, we concluded an optimized composition of Ge23As13.5Se63.5/Ge23As12.5Se64.5 glass. After effective purification and preform extrusion, the glasses were processed into high-quality step-index fiber (core diameter of 300 µm), which exhibits a minimum loss of 0.9 dB/m at 6.9 µm and is capable of withstanding an input CO2 laser power of 19.96 W at a wavelength of 10.6 µm, equal to a power density of 28.25 ± 0.02 kW/cm2 in air. This is nearly 2.3 times higher than that previously reported for Ge-As-Se fibers. This establishes a material foundation for achieving far-infrared high-energy laser systems using Ge-As-Se fibers in the future.

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增强 Ge-As-Se 玻璃纤维中的远红外激光损伤阈值。
由于化学键较弱,As-Se 卤化物玻璃的损伤阈值较低,这阻碍了其在高功率激光传输中的应用。为了解决这个问题,我们在 As-Se 玻璃中引入了锗元素,并优化了成分,以提高玻璃化转变温度(Tg)和激光损伤阈值(LDT)。根据 Tg、LDT 和光纤损耗等各种参数之间的相关性,我们总结出了 Ge23As13.5Se63.5/Ge23As12.5Se64.5 玻璃的优化组合。经过有效提纯和预成型挤压后,玻璃被加工成了高质量的阶跃指数光纤(纤芯直径为 300 µm),这种光纤在 6.9 µm 波长处的损耗最小为 0.9 dB/m,能够承受 10.6 µm 波长处 19.96 W 的二氧化碳激光输入功率,相当于空气中 28.25 ± 0.02 kW/cm2 的功率密度。这比之前报道的 Ge-As-Se 光纤的功率密度高出近 2.3 倍。这为将来利用 Ge-As-Se 光纤实现远红外高能激光系统奠定了物质基础。
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来源期刊
Optics express
Optics express 物理-光学
CiteScore
6.60
自引率
15.80%
发文量
5182
审稿时长
2.1 months
期刊介绍: Optics Express is the all-electronic, open access journal for optics providing rapid publication for peer-reviewed articles that emphasize scientific and technology innovations in all aspects of optics and photonics.
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