Super-resolved critical dimensions in far-field I-line photolithography

IF 1.5 2区 物理与天体物理 Q3 ENGINEERING, ELECTRICAL & ELECTRONIC
David A. B. Miller, D. Forman, Adam Jones, R. McLeod
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引用次数: 8

Abstract

Abstract. Background: Resolution enhancement combined with multiple patterning enables photolithography to write patterns with both feature size and spacing below the diffraction limit. Continued resolution enhancement at i-line will enable an older generation of lithographic tools to reach resolutions typically achieved using deep UV (DUV). Aim: A demonstration and deterministic model of large critical dimension enhancement at i-line. In addition to enhanced resolution, the technique must also achieve high repeatability and low line edge roughness (LER), while using commercial resists. Approach: Overexposing photoresist with high-contrast interference nulls leads to subwavelength critical dimensions. Starting with a theoretical analysis of the technique, we consider limits imposed by optics, linewidth scaling rates, and LER. This analysis shows that low LER and deterministic linewidth control are both readily achievable. Results: We demonstrate large area, i-line patterning of features with 50-nm linewidth, without the aid of subsequent trim or etch and with LER of 5 nm. Linewidth is shown to scale with dose as predicted from the optical model, independent of photoresist. Conclusions: These dimensions are similar to what may be achieved using scanning near-field, DUV, or e-beam lithography, yet achieved with far-field near UV exposures over a large area. Deterministic linewidth control and low LER make this process viable for fabrication at length scales well below those typically achieved with i-line tools.
远场i线光刻的超分辨临界尺寸
摘要背景:分辨率增强与多重图案相结合使光刻技术能够在特征尺寸和间距低于衍射极限的情况下书写图案。i-line的持续分辨率增强将使老一代光刻工具达到通常使用深紫外(DUV)实现的分辨率。目的:建立i-线大临界维数增强的实证模型和确定性模型。除了提高分辨率外,该技术还必须在使用商用抗蚀剂时实现高重复性和低线边缘粗糙度(LER)。方法:过度曝光具有高对比度干涉零的光刻胶导致亚波长临界尺寸。从该技术的理论分析开始,我们考虑了光学,线宽缩放率和LER所施加的限制。这一分析表明,低LER和确定性线宽控制都很容易实现。结果:我们展示了50纳米线宽的大面积i线图案特征,没有后续修剪或蚀刻的帮助,LER为5纳米。线宽与光学模型预测的剂量成比例,与光刻胶无关。结论:这些尺寸与使用扫描近场,DUV或电子束光刻可能获得的尺寸相似,但可以在大面积的远场近紫外线照射下获得。确定的线宽控制和低LER使得该工艺在长度尺度上的制造是可行的,远低于那些典型的i线工具。
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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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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