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High-precision deformation mapping in finFET transistors with two nanometre spatial resolution by precession electron diffraction

机译：通过进动电子衍射在具有两个纳米空间分辨率的finFET晶体管中进行高精度形变映射

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摘要

Precession electron diffraction has been used to systematically measure the deformation in Si/SiGe blanket films and patterned finFET test structures grown on silicon-on-insulator type wafers. Deformation maps have been obtained with a spatial resolution of 2.0 nm and a precision of ±0.025%. The measured deformation by precession diffraction for the blanket films has been validated by comparison to energy dispersive x-ray spectrometry, X-Ray diffraction, and finite element simulations. We show that although the blanket films remain biaxially strained, the patterned fin structures are fully relaxed in the crystallographic planes that have been investigated. We demonstrate that precession diffraction is a viable deformation mapping technique that can be used to provide useful studies of state-of-the-art electronic devices.

机译：进动电子衍射已被用来系统地测量在绝缘体上硅类型晶片上生长的Si / SiGe覆盖膜和带图案的finFET测试结构的变形。获得的变形图的空间分辨率为2.0 nm，精度为±0.025％。通过与能量色散X射线光谱法，X射线衍射和有限元模拟进行比较，已验证了通过进动衍射法测得的覆盖膜变形。我们显示，尽管覆盖膜仍保持双轴应变，但已图案化的鳍片结构在已研究的晶体学平面中完全松弛。我们证明旋进衍射是一种可行的变形映射技术，可用于提供最先进的电子设备的有用的研究。

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期刊名称 Applied Physics Letters
作者
David Cooper; Nicolas Bernier; Jean-Luc Rouvière; Yun-Yu Wang; Weihao Weng; Anita Madan; Shogo Mochizuki; Hemanth Jagannathan;
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作者单位

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年(卷),期 -1(110),22
年度 -1
页码 223109
总页数 5
原文格式 PDF
正文语种
中图分类病理学;
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专利

1. High-precision deformation mapping in finFET transistors with two nanometre spatial resolution by precession electron diffraction [J] . David Cooper, Nicolas Bernier, Jean-Luc Rouviere, Applied Physics Letters . 2017,第22期

机译：通过进动电子衍射在具有两个纳米空间分辨率的finFET晶体管中进行高精度形变映射
2. Combining 2 nm Spatial Resolution and 0.02% Precision for Deformation Mapping of Semiconductor Specimens in a Transmission Electron Microscope by Precession Electron Diffraction [J] . Cooper David, Bernier Nicolas, Rouviere Jean-Luc Nano letters . 2015,第8期

机译：结合2 nm空间分辨率和0.02％精度通过进动电子衍射在透射电子显微镜中对半导体样品进行形变映射
3. High-resolution scanning precession electron diffraction: Alignment and spatial resolution [J] . Barnard Jonathan S., Johnstone Duncan N., Midgley Paul A. Ultramicroscopy . 2017,第期

机译：高分辨率扫描进出电子衍射：对准和空间分辨率
4. Field mapping of semiconductor devices in a transmission electron microscope with nanometre scale resolution by off-axis electron holography and precession electron diffraction [C] . David Cooper, Nicolas Bernier, Jean-Luc Rouviere IEEE International Conference on Nanotechnology . 2015

机译：离轴电子全息和进动电子衍射在纳米尺度分辨率的透射电子显微镜中半导体器件的场图
5. Mapping of Physical Properties and Structure of Nanomaterials by Dose Controlled Electron Holography and Precession Electron Diffraction [D] . Ortega Aguilar, Jose Eduardo. 2018

机译：用剂量控制电子全息术和纳米材料的物理性质和结构映射映射
6. Nanobeam precession-assisted 3D electron diffraction reveals a new polymorph of hen egg-white lysozyme [O] . Arianna Lanza, Eleonora Margheritis, Enrico Mugnaioli, 2019

机译：纳米束进动辅助的3D电子衍射揭示了一种新的鸡蛋清溶菌酶多晶型物
7. Deformation mapping in the TEM by dark holography, nanobeam diffraction, geometrical phase analysis and precession electron diffraction. A comparison of the different techniques [O] . David Cooper, Nicolas Bernier, Jean-Luc Rouviere 2015

机译：通过暗全全息，纳米辐射，几何相分析和预防电子衍射变形映射。不同技术的比较

High-precision deformation mapping in finFET transistors with two nanometre spatial resolution by precession electron diffraction

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