Reconstructing the three-dimensional latent image of extreme ultraviolet resists with resonant soft x-ray scattering

IF 1.5 2区 物理与天体物理 Q3 ENGINEERING, ELECTRICAL & ELECTRONIC
G. Freychet, I. Cordova, Terry R. McAfee, G. Kumar, R. Pandolfi, C. Anderson, S. Dhuey, P. Naulleau, Cheng Wang, A. Hexemer
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引用次数: 13

Abstract

Abstract. Extreme ultraviolet (EUV) lithography is one of the most promising printing techniques for high-volume semiconductor manufacturing at the 14-nm half-pitch device node and beyond. However, key challenges around EUV photoresist materials, such as the exposure-dose sensitivity or the line-width roughness, continue to impede its full adoption into industrial nanofab facilities. Metrology tools are required to address these challenges by helping to assess the impact of the EUV materials’ properties and processing conditions along different steps of the nanofabrication process. We apply the resonant soft x-ray scattering (RSoXS) technique to gain insights into the structure of patterned EUV resists before the development step takes place. By using energies around the carbon K-edge to take advantage of small differences in chemistry, the electronic density contrast between the exposed and unexposed regions of the resists could be enhanced in order to image the patterns with subnanometer precision. Critical-dimension grazing-incidence small-angle x-ray scattering is then performed at energies where the contrast is maximized, enabling the reconstruction of the three-dimensional shape of the latent image. We demonstrate the potential of RSoXS to provide a high-resolution height-sensitive profile of patterned EUV resists, which will help in quantifying the evolution of critical features, such as the line-edge roughness, at a key step of the nanofabrication process.
用软x射线共振散射法重建极紫外光抗蚀剂的三维潜影
摘要极紫外(EUV)光刻技术是在14nm半间距器件节点及以上的大批量半导体制造中最有前途的印刷技术之一。然而,围绕EUV光刻胶材料的关键挑战,如暴露剂量敏感性或线宽粗糙度,继续阻碍其在工业纳米工厂设施中的全面采用。需要计量工具来解决这些挑战,帮助评估EUV材料的特性和纳米制造过程中不同步骤的加工条件的影响。我们应用谐振软x射线散射(RSoXS)技术,在开发步骤发生之前深入了解图像化EUV电阻的结构。通过利用碳k边周围的能量来利用化学上的微小差异,可以增强抗光刻剂暴露区域和未暴露区域之间的电子密度对比,从而以亚纳米精度成像图案。然后在对比度最大的能量处进行临界维掠入射小角度x射线散射,从而能够重建潜在图像的三维形状。我们展示了RSoXS的潜力,可以提供高分辨率的高度敏感图谱,这将有助于在纳米制造过程的关键步骤中量化关键特征的演变,例如线边缘粗糙度。
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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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