碳纳米管EUV膜对光栅成像影响的实验评价

IF 1.5 2区 物理与天体物理 Q3 ENGINEERING, ELECTRICAL & ELECTRONIC
I. Mochi, M. Timmermans, E. Gallagher, Marina Mariano, I. Pollentier, R. Rajendran, P. Helfenstein, Sara Fernández, D. Kazazis, Y. Ekinci
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引用次数: 7

摘要

摘要背景:极紫外光刻膜的目的是保护极紫外光刻掩膜表面不受粒子污染。重要的是要确保膜膜的光学特性不严重影响光栅的图像质量。目的:我们想验证在反射模式EUV掩膜扫描显微镜(RESCAN)中集成膜检测和表征能力的可能性,RESCAN是我们基于相干衍射成像的光化掩膜检测平台。方法:我们研究了一些选定的EUV膜原型对RESCAN获得的光栅图像质量和对比度的影响。结果:我们测量了膜的散射分布,并将其与掩膜图像的对比度和保真度相关联。我们还检测到膜表面存在直径6.5 μm的纤维。结论:RESCAN适用于透膜光掩膜检测,也可用于表征和监测膜质量。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Experimental evaluation of the impact of carbon nanotube EUV pellicles on reticle imaging
Abstract. Background: The purpose of EUV pellicles is to protect the surface of EUV lithography masks from particle contamination. It is important to ensure that the optical characteristics of the pellicle membrane do not critically affect the reticle image quality. Aim: We want to verify the possibility to integrate pellicle inspection and characterization capabilities in reflective-mode EUV mask scanning microscope (RESCAN), our actinic mask inspection platform based on coherent diffraction imaging. Approach: We studied the impact of a few selected EUV pellicle prototypes on the quality and the contrast of the reticle image obtained with RESCAN. Results: We measured the scattering distribution of the pellicles, and we correlated it with the mask image contrast and fidelity. We also detected the presence of a 6.5-μm-diameter fiber on the pellicle surface. Conclusions: We demonstrated that RESCAN is suitable for through-pellicle actinic mask inspection and can be also used to characterize and monitor the pellicle quality.
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来源期刊
CiteScore
3.40
自引率
30.40%
发文量
0
审稿时长
6-12 weeks
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