Study on Preparation and Ns-Laser Damage of HfO2 Single Layers

Guo Kesheng, H. Lang, Wei Hong, Hu Qiang, Hongbo He, Xu Ping
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Abstract

The effects of the main parameters of argon flux, oxygen flux and beam voltage on the surface morphology, transmittance spectrum and laser damage of the HfO2 single layers prepared by ion beam sputtering are studied. The HfO2 amorphous single layers have porous surface morphologies. Different processes will cause differences in coatings absorption and surface morphology, which in turn will cause changes in the spectral transmittance curve. The ion beam sputtering HfO2 single layers have high content of argon (4.5% - 8%). The laser damage of HfO2 single layers is related to argon inclusions and non-stoichiometric defects. The changes of argon flux and beam voltage have a greater impact on argon content and O/Hf ratio. When the argon content in the coatings is lower and the O/Hf ratio is higher, the laser damage thresholds of the HfO2 single layers are higher.
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HfO2单层材料的制备及ns激光损伤研究
研究了氩流量、氧流量和束电压等主要参数对离子束溅射HfO2单层材料表面形貌、透射光谱和激光损伤的影响。HfO2非晶单层具有多孔的表面形貌。不同的工艺会导致涂层吸收和表面形态的差异,进而导致光谱透射率曲线的变化。离子束溅射HfO2单层具有高的氩含量(4.5%-8%)。HfO2单层的激光损伤与氩夹杂和非化学计量缺陷有关。氩气流量和束电压的变化对氩气含量和O/Hf比的影响较大。当涂层中的氩含量较低且O/Hf比较高时,HfO2单层的激光损伤阈值较高。
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