Evaluation of alumina and silica coating materials for the NIF final turning mirrors

Laser Damage Pub Date : 2021-10-12 DOI:10.1117/12.2598577
C. Stolz, J. Weng, Tsion Teklemarim, M. Brophy, P. Kupinski
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引用次数: 1

Abstract

One third of the exchanged final turning mirrors on the National Ignition Facility have been laser damaged by 3ω (351nm) target backscattered light. The mirrors are spectrally complex hafnia and silica multilayer dichroic coatings with high 1ω reflection for the forward propagating beam and low 3ω reflection to suppress propagation of target backscatter. Alumina, a wider bandgap high index material than hafnia, was selected to improve the 3ω laser damage resistance despite a lower refractive index. A 2-4x improvement in 3ω LIDT was demonstrated with adequate 1ω laser damage resistance. Nodule ejection was the dominate laser damage morphology. An 18% decrease in the refractive index between alumina and hafnia results in coating designs that are 3x thicker. Similarly, a decrease in refractive index also decreases the angular bandwidth resulting in increasing the number of mirror types from two to six over an angular range of 16 degrees. The significant improvement in 3ω LIDT has justified beginning a scale up demonstration to full aperture (0.3m2).
NIF最终转向镜用氧化铝和二氧化硅涂层材料的评价
在国家点火装置上三分之一的交换的最后转向镜已经被3ω (351nm)目标背向散射光激光损坏。反射镜采用光谱复杂的半氟硅和二氧化硅多层二向色镀层,前向传播光束具有高1ω反射,抑制目标反向散射传播的低3ω反射。氧化铝是一种比半氟酸更宽的带隙高折射率材料,虽然折射率较低,但可以提高3ω激光损伤的抗损伤性。3ω LIDT改善2-4倍,具有足够的1ω激光损伤抗力。激光损伤的主要形态为弹射结节。氧化铝和半铝之间的折射率降低18%,导致涂层设计厚3倍。同样,折射率的降低也降低了角带宽,从而在16度角范围内增加了镜子类型的数量,从2个增加到6个。3ω LIDT的显著改进证明了开始对全孔径(0.3m2)进行放大演示是合理的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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