强激光与粒子束, 2018, 30 (9): 092001, 网络出版: 2018-08-21  

节瘤缺陷平坦化提高高反射膜的激光损伤阈值

Improve the LIDT of high-reflection coatings by planarizing nodular defects
谢凌云 1,2,*何涛 1,2张锦龙 1,2焦宏飞 1,2马彬 1,2王占山 1,2程鑫彬 1,2
作者单位
1 同济大学 先进微结构材料教育部重点实验室, 上海 200092
2 同济大学 物理科学与工程学院 精密光学工程技术研究所, 上海 200092
摘要
探究了节瘤缺陷平坦化技术中平坦化层(刻蚀层)厚度和种子源尺寸之间的刻蚀规律,同时解释了平坦化技术提高节瘤缺陷的损伤阈值的机制。在双离子束溅射系统中,使用SiO2微球模拟真实的种子源置于基板上,镀制1064 nm HfO2/SiO2高反膜,制备人工节瘤缺陷。对类似于实际种子源的SiO2微球一系列不同刻蚀程度的实验得出了节瘤缺陷平坦化技术的刻蚀规律:只要平坦化层(刻蚀层)的厚度稍大于节瘤缺陷的种子源粒径,就可以将种子源完全平坦化。使用时域有限差分法(FDTD)模拟不同平坦化程度的节瘤缺陷内电场增强的结果与节瘤缺陷的损伤形貌进行对比实验,将损伤形貌和损伤阈值与电场强度分布之间建立联系,表明平坦化技术可以改变节瘤缺陷原有的几何结构,有效抑制节瘤缺陷的电场增强效应。最后,通过对未经平坦化和经过平坦化处理后的节瘤缺陷进行损伤阈值测试,对比结果直接验证了节瘤缺陷平坦化技术可以实现对节瘤缺陷的调控,大幅度提高了节瘤缺陷的损伤阈值。
Abstract
Nodular defects planarization was investigated to improve the laser-induced damage threshold (LIDT) of high-reflection coatings. The monodisperse SiO2 microspheres were deposited on the substrate surface by spin coating process. In the dual ion beam sputtering system, the artificial nodules were grown from these engineered seeds in 1064 nm HfO2/SiO2 multilayer coatings. After a series of coating and etching steps, the SiO2 microspheres were smoothed by a single SiO2 planarization layer. The relation between the thickness of the planarization layer and the size of the microspheres has been investigated. When the planarization layer (etching layer) thickness was slightly larger than the diameter of the seeds, the seeds could be completely planarized to obtain smooth thin films. Furthermore, the three-dimensional finite-difference time-domain code (FDTD) was used to simulate the electric-field intensity distributions in the artificial nodular defects. The comparison between the electric-field intensity distributions and the nodular morphologies of the non-planarized nodular defects and partially planarized nodular defects indicates that the nodular defects planarization has changed the geometry of nodular defects and effectively suppressed the electric field enhancement in nodular defects. Finally, nodular defects with different thickness planarization layers were tested by raster scan damage tests. For the nodular defects with an adequate planarization layer, the laser damage threshold test results show that the ejection fluences has been greatly raised, which has verified that nodular defect planarization could improve the damage resistance of thin films.

谢凌云, 何涛, 张锦龙, 焦宏飞, 马彬, 王占山, 程鑫彬. 节瘤缺陷平坦化提高高反射膜的激光损伤阈值[J]. 强激光与粒子束, 2018, 30(9): 092001. Xie Lingyun, He Tao, Zhang Jinlong, Jiao Hongfei, Ma Bin, Wang Zhanshan, Cheng Xinbin. Improve the LIDT of high-reflection coatings by planarizing nodular defects[J]. High Power Laser and Particle Beams, 2018, 30(9): 092001.

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