High beam quality continuous-wave 320  nm UV laser from a walk-off compensated intracavity frequency-doubled Pr:YLF laser.

Applied optics Pub Date : 2024-06-01 DOI:10.1364/AO.522760
Yue Zuo, Bo Wu, Yonghang Shen
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Abstract

We report a high beam quality continuous-wave (CW) 320 nm ultra-violet (UV) laser. An end-pumped praseodymium-doped yttrium lithium fluoride (Pr:YLF) laser is constructed in a typical V-shaped cavity structure, while the UV output is obtained through intracavity frequency doubling using L i B 3 O 5 (LBO). We investigate the dependence of the UV output power, as well as the spot profile on the LBO length, and find that the "walk-off" within LBO severely affects both the frequency-doubling efficiency and the beam quality of the UV output. Rotated twin LBO crystals are then applied to substitute for single long LBO crystal to compensate the walk-off effect, resulting in high-power 320 nm output up to 410 mW under the absorbed pump power of 4.0 W at 444 nm, with a high beam quality of M x2=1.02 and M y2=1.04.

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由腔内倍频 Pr:YLF 激光器产生的高光束质量 320 nm 连续波紫外激光器。
我们报告了一种高光束质量的连续波(CW)320 nm 紫外线(UV)激光器。我们在典型的 V 型腔结构中构建了一个端泵浦掺镨氟化钇锂(Pr:YLF)激光器,并通过使用 L i B 3 O 5(LBO)进行腔内倍频来获得紫外输出。我们研究了紫外输出功率和光斑轮廓与 LBO 长度的关系,发现 LBO 内的 "走散 "现象严重影响了倍频效率和紫外输出的光束质量。因此,在 444 nm 波长吸收泵浦功率为 4.0 W 的情况下,320 nm 波长输出功率可达 410 mW,光束质量高达 M x2=1.02 和 M y2=1.04。
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