提高极紫外光刻用高分辨率负色调金属有机光刻胶的灵敏度

S. Lewis, Hayden R. Alty, M. Vockenhuber, G. DeRose, D. Kazazis, G. Timco, James A. Mann, Paul L. Winpenny, A. Scherer, Y. Ekinci, R. Winpenny
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摘要

本文报道了一种用于电子束和极紫外光刻的新型金属有机光刻胶。从最初的电子束光刻研究中,抗蚀剂性能表现出15 nm半间距(HP)的优异分辨率和100:1的硅干蚀刻选择性,但以牺牲灵敏度为代价。为了提高灵敏度,采用了利用二次电子生成模型的三维蒙特卡罗模拟。模拟结果表明,通过在抗蚀剂分子设计中加入HgCl2,可以在保持高分辨率的同时显著提高灵敏度。在不损失高分辨率的情况下,这大大提高了电阻灵敏度,其中确定电阻灵敏度增加了1.6和1.94倍,而暴露于电子和EUV辐射时分别显示出15 nm和16 nm HP的分辨率。使用x射线光电子能谱测量,我们表明,在暴露于电子束后,抗蚀剂材料转化为金属氟化氧,这就是为什么抗蚀剂对硅干蚀刻条件具有很高的抵抗力,在15 nm HP的分辨率下实现60:1的选择性。
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Enhancing the sensitivity of a high resolution negative-tone metal organic photoresist for extreme ultra violet lithography
In this paper, we report on a novel metal organic photoresist based on heterometallic rings that was designed for electron beam and extreme ultraviolet lithography. From initial electron beam lithography studies, the resist performance demonstrated excellent resolution of 15 nm half-pitch (HP) and a silicon dry etch selectivity of 100:1 but at the expense of sensitivity. To improve sensitivity, a 3D Monte Carlo simulation was employed that utilizes a secondary electron generation model. The simulation suggested that the sensitivity could be dramatically improved while maintaining high resolution by incorporating HgCl2 species into the resist molecular design. This considerably improved the resist sensitivity without losing the high resolution, where it was determined that the resist sensitivity was increased by a factor of 1.6 and 1.94 while demonstrating a resolution of 15 nm and 16 nm HP when exposed with electrons and EUV radiation respectively. Using x-ray photoelectron spectroscopy measurements, we show that after exposure to the electron beam the resist materials are transformed into a metal oxyfluoride and this is why the resist demonstrates high resistance to silicon dry etch conditions achieving a selectivity of 60:1 at a resolution of 15 nm HP.
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