Characterization of negative tone photoresist mr-EBL 6000.5 for i-line stepper and electron beam lithography for the Intra-Level Mix & Match Approach

IF 2.8 Q2 ENGINEERING, ELECTRICAL & ELECTRONIC Micro and Nano Engineering Pub Date : 2024-06-01 DOI:10.1016/j.mne.2024.100264
S. Schermer , C. Helke , M. Reinhardt , S. Hartmann , F. Tank , J. Wecker , G. Heldt , A. Voigt , D. Reuter
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Abstract

In this paper the characterization of the mr-EBL 6000.5, which is an epoxy resin based chemically amplified negative tone resist from micro resist technology (Germany, Berlin) for an Intra-Level Mix & Match (ILM&M) approach is presented. The ILM&M approach combined at least two exposure technologies on the same resist layer showing the advantage to resolve patterns of different dimensions with less process steps and short processing time. Since the mr-EBL 6000.5 resist is capable of being sensitive to both electron- and UV-radiation, process parameters for i-line stepper lithography and electron beam lithography (EBL) needs to be investigated to be capable for the ILM&M approach. First, a spin curve and a post exposure bake (PEB) study were applied to find suitable process parameters for both exposure technologies. Furthermore, the minimum feature sizes for both patterning technologies are investigated by using a 500 nm thick resist layer. The impact of small feature sizes near the CD-limit of the used i-line stepper (350 nm) on the resist thickness after the development was investigated in dependence of the PEB. After all parameters were examined, they were combined to be used in the ILM&M.

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用于 i 线步进和电子束光刻的负调光刻胶 mr-EBL 6000.5 在级内混合与匹配方法中的特性分析
本文介绍了 mr-EBL 6000.5 的特性,这是一种基于环氧树脂的化学放大负调光刻胶,由德国柏林微光刻胶技术公司生产,采用了层内混合匹配(ILM&M)方法。ILM&M 方法在同一光刻胶层上结合了至少两种曝光技术,具有工艺步骤少、加工时间短的优势,可以解决不同尺寸的图案问题。由于 mr-EBL 6000.5 光刻胶对电子和紫外线辐射都很敏感,因此需要研究 i-line步进光刻和电子束光刻(EBL)的工艺参数,使其能够用于 ILM&M 方法。首先,应用自旋曲线和曝光后烘烤(PEB)研究为两种曝光技术找到合适的工艺参数。此外,通过使用 500 nm 厚的抗蚀层,研究了两种图案技术的最小特征尺寸。在所使用的 i 线步进器的 CD 限值(350 nm)附近的小特征尺寸对显影后抗蚀层厚度的影响与 PEB 有关。在对所有参数进行检查后,将它们组合起来用于 ILM&M。
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来源期刊
Micro and Nano Engineering
Micro and Nano Engineering Engineering-Electrical and Electronic Engineering
CiteScore
3.30
自引率
0.00%
发文量
67
审稿时长
80 days
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