optical thin-film 光学薄膜
optical thin film monitor 光学薄膜监测仪
optical thin film deposition 光学镀膜 ; 镀膜
absorpting loss in optical thin-film 光学薄膜的吸收损耗
Optical thin film technology 光学薄膜技术
193 nm optical thin film nm光学薄膜
optical thin film element [光] 光学薄膜元件
nm optical thin film nm光学薄膜
TiO2 optical thin film TiO2膜层
The absorption of optical thin film coatings is one of the main factors that limit the development of high-power lasers.
光学薄膜吸收的存在,是限制高能激光发展的主要因素之一。
参考来源 - 10.6 μm激光辐照下光学薄膜热畸变和微弱吸收的研究The invention of laser also accelerated the development of optical thin film since 1961.
1961年激光的问世使薄膜光学得到了飞速的发展。
参考来源 - 薄膜偏光分束镜的性能优化与镀膜技术·2,447,543篇论文数据,部分数据来源于NoteExpress
Nodule defects on dielectric multi-layer optical thin film are key factors resulting in laser-induced damage.
在多层介质薄膜中,节瘤缺陷是影响薄膜激光损伤的关键因素。
Thus, it is necessary to measure the absorption of the optical thin film coatings accurately, fast and in-situ.
因而,有必要对光学薄膜的吸收进行精确、快速、实时地检测。
Thus, it is necessary to measure the mean and local absorption of the optical thin film coatings accurately, fast and in-situ.
因此,有必要对光学薄膜的这种平均吸收及局部吸收进行精确、快速、实时的检测。
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