Generation of UV-defects in UV fibers: comparison between different pulsed UV lasers

Laser Damage Pub Date : 2021-10-12 DOI:10.1117/12.2597970
S. Heiden, P. Raithel, K. Klein, G. Hillrichs
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Abstract

Temporal and spectral Laser-induced UV-loss studies in DUV-fibers with undoped synthetic silica core, mainly low-OH silica and modifications, were carried out with an automated set-up using pulsed 213 nm, 266 nm and 355 nm Nd-YAG Lasers. A multiple Gaussian band approximation was used to separate the individual but superimposed optically active UV defects leading to new temporal results of the individual UV defects. The curve shape of spectral losses was found to be different and strongly influenced by the Laser wavelengths, which are within absorption bands in low-OH silica, reducing the correlated defect at the beginning of irradiation significantly. In addition to solarization caused by 266 nm Laser damaging, annealing of some defects was observed. Depending on the fiber type, including hydrogen-treated types, different time constants were determined. Obvious transformations were observed during damaging with Lasers and/or broadband D2-lamp. Finally, an improved fitting of the UV attenuation or UV-induced losses in UV-fibers around 250 nm (ODC-II region) was possible by introducing two bands with slightly different peak wavelengths and temporal behaviors.
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紫外纤维中紫外缺陷的产生:不同脉冲紫外激光器的比较
采用213 nm、266 nm和355nm脉冲Nd-YAG激光器,对未掺杂合成二氧化硅芯(主要是低oh二氧化硅和改性)的duv光纤的时间和光谱激光诱导紫外损耗进行了研究。采用多高斯波段近似分离单独但叠加的光学活性紫外缺陷,得到单个紫外缺陷的新时域结果。光谱损失曲线形状不同,且受激光波长的影响较大,激光波长在低oh二氧化硅的吸收带内,显著降低了辐照初期的相关缺陷。除了266nm激光损伤引起的日晒外,还观察到了一些缺陷的退火现象。根据纤维类型,包括氢处理类型,确定了不同的时间常数。在激光和/或宽带d2灯的破坏过程中观察到明显的转变。最后,通过引入两个峰值波长和时间行为略有不同的波段,可以改进UV衰减或UV诱导损耗在250 nm (ODC-II区域)附近的UV纤维中的拟合。
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