Impact of sputtering and redeposition on the morphological profile evolution during ion-beam etching of blazed gratings

Ze-Xuan Liu, Xing-Yu Li, Quanzhi Zhang, J. Schulze, Ruobing Zhang, You-Nian Wang
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Abstract

Ion-beam etching (IBE) is widely used in the fabrication of high-quality blazed gratings due to its high resolution and directionality, which allows for the control of blazed angles and smooth surface profiles. Throughout the ion-beam etching process, the redeposition of sputtered species onto the wafer occurs, affecting the profile evolution and blazed angle. To investigate this phenomenon in the fabrication of blazed gratings, a self-consistent simulation model utilizing the cellular method has been developed to analyze the etching and redeposition mechanisms in the IBE process. The model yields good agreement with the experimentally observed evolution of the etching profile. By examining the density and velocity distributions of the sputtered species, the coexistence of etching and redeposition is confirmed and explained, highlighting the visually significant role of redeposition. Our model takes into account the “footing effect” that is unavoidable in mask manufacturing, and its impact on the morphology evolution during blazed grating IBE is studied.
离子束蚀刻炽热光栅过程中溅射和再沉积对形貌演变的影响
离子束蚀刻(IBE)具有高分辨率和方向性,可控制光斑角度和光滑的表面轮廓,因此被广泛用于制造高质量的光斑。在整个离子束蚀刻过程中,溅射物会重新沉积到晶片上,从而影响轮廓的演变和炽热角。为了研究釉面光栅制造过程中的这一现象,我们利用蜂窝方法开发了一个自洽模拟模型,用于分析离子束蚀刻过程中的蚀刻和再沉积机制。该模型与实验观察到的蚀刻轮廓演变结果非常吻合。通过研究溅射物质的密度和速度分布,证实并解释了蚀刻和再沉积共存的现象,突出了再沉积在视觉上的重要作用。我们的模型考虑到了掩膜制造过程中不可避免的 "脚底效应",并研究了它对炽热光栅 IBE 过程中形态演变的影响。
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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