利用闪烁角沉积法制作斜光栅

Hongwen Wu, Aixi Pan, Chenxu Zhu, Bo Cui
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摘要

斜光栅通常用于在各种应用中操纵光线,通常采用传统的自上而下方法制造。然而,这些方法在材料选择上有局限性。本文探讨了如何利用闪烁角沉积法(GLAD)在硅(Si)和石英(SiO2)基底上制作具有不同材料和斜角的斜光栅。该工艺的第一步是利用电子束光刻技术制作模板,然后进行升华和干蚀刻,第二步是在预制模板上进行电子束闪角蒸发。模板由带有很浅沟槽的光栅结构组成。在 GLAD 工艺中使用了不同的材料,如铬(Cr)、铜(Cu)、氧化铝(Al2O3)和氧化钛(TiO2),在硅或二氧化硅基底上形成了斜光栅结构,展示了其多功能性。在这里,斜光栅的形成是由于阴影效应导致沉积在突出的光栅线上,但没有沉积到沟槽中。使用二氧化钛作为源材料,GLAD 技术可以通过调整沉积角度产生不同角度的斜光栅。使用 COMSOL 软件模拟验证了使用 GLAD 制备的斜光栅的光学特性,证实了其出色的导光性能。
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Fabrication of slanted gratings by using glancing angle deposition
Slanted gratings, commonly used for manipulating light in various applications, are typically fabricated using conventional top-down methods. However, these methods have limitations on material choice. This paper explores the use of glancing angle deposition (GLAD) to fabricate slanted gratings with various materials and slant angles on silicon (Si) and quartz (SiO2) substrates. The process involves the first step of creating a template using electron beam lithography, lift-off, and dry etching, and the second step of electron beam evaporation at a glancing angle on the prefabricated template. The template consists of grating structures with very shallow trenches. Different materials, such as chromium (Cr), copper (Cu), aluminum oxide (Al2O3), and titanium oxide (TiO2), were used in the GLAD process to create slanted grating structures on Si or SiO2 substrates, showcasing their versatility. Here, the formation of the slanted grating is due to the shadowing effect that leads to deposition onto the protruded grating lines but not into the trench. Using TiO2 as the source material, the GLAD technique can produce slanted gratings with various angles by adjusting the deposition angle. The optical characteristics of the slanted grating prepared using GLAD were verified through simulations with COMSOL software, confirming its excellent light guide performance.
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