选择性涂覆TFMG的UV LED透镜的设计与制造

P. Lin, C. Pan, Y. C. Chen, F. Hsu, S. Shen, J. Huang, C. M. Chang
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引用次数: 1

摘要

本研究开发的UV LED照明技术有望应用于光刻行业。由于交联度和侧壁轮廓的精度会受到紫外光剂量强度的影响,本研究提出了用于曝光机的紫外LED光源元件的光学设计和制造的自由曲面透镜。本研究采用商用光学模拟软件FRED确定了含TFMG透镜的光强分布。在此基础上,分别采用光学玻璃和聚甲基丙烯酸甲酯热成型技术制备了透镜。然后选择性地涂上薄膜金属玻璃(TFMG, Ag30, Mg45, Al25)。对于TFMG涂层,采用多目标溅射系统在透镜表面溅射厚度为100 ~ 300 nm的TFMG反射膜。通过TFMG选择性沉积和透镜曲线的设计,可以将UV LED朗伯发射图的光场转换为均匀轮廓。通过对UV LED光源的反射设计,可以提高光源的反射强度和均匀性。选择波长为360 ~ 390 nm的UV LED光源作为光源,模拟i线和g线的影响。利用USB2000+VIS-NIR光谱仪(海洋光学)和BM7对紫外光的特定波长进行测量。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Design and fabrication of lens selectively coated with TFMG for uniform intensity of UV LED
This UV LED lighting technology developed in this study is expected to be applied to photolithography industry. Since the accuracy of the degree of cross linking and sidewall profile could be affected by intensity of UV light dosage, this research proposes optical design and fabrication of free-curved lens for light source element of UV LED for exposure machines. In this study, the optical intensity distributions of the lens with TFMG were determined by using commercial optical simulation FRED software. Based on the design, the lenses were fabricated using thermoforming of optical glass and PMMA, respectively. Then the lens is selectively coated with thin film metallic glasses (TFMG, Ag30 Mg45 Al25). For the TFMG coating, multi-target sputtering system is applied to sputter TFMG reflecting film on the surface of lens with thickness of 100 nm to 300 nm. With the both design of TFMG selective deposition and lens curve, the optical field of Lambertian emission patterns of UV LED can be transformed to uniform profile. Through this design of reflection of UV LED light source, the intensity and uniformity could be enhanced. UV LED light source with 360 to 390 nm in wavelength was chosen as light source to simulate the effects of I-line and G-line. The specific wavelength of UV light is measured by spectrometer (USB2000+VIS-NIR, Ocean Optics) and BM7.
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