An efficient, simple, and precise way to map strain with nanometer resolution in semiconductor devices

Christoph T. Koch V. Burak Özdöl and Peter A. van Aken

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An efficient, simple, and precise way to map strain with nanometer resolution in semiconductor devices

机译：一种高效，简单且精确的方法来绘制半导体器件中具有纳米分辨率的应变图

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We report on the development of the dark-field inline electron holography technique and its application to map strain in technologically relevant structures, using as an example the strain-engineered gate channel in a 45 nm metal-oxide semiconductor field-effect transistor structure. We show that this technique combines a large field of view of several micrometers with high precision (better than 0.01%), high spatial resolution (better than 1 nm), and very loose experimental requirements not possible with any other technique currently available.

机译：我们以45 nm金属氧化物半导体场效应晶体管结构中的应变工程栅极沟道为例，报道了暗场在线电子全息技术的发展及其在映射相关技术结构中的应变的应用。我们表明，该技术结合了具有高精度（优于0.01％），高空间分辨率（优于1 nm）和非常宽松的实验要求的数个微米的大视场，而目前其他任何可用的技术都无法做到。

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来源
《Applied Physics Letters》 |2010年第9期|p.1-3|共3页
作者
Christoph T. Koch V. Burak Özdöl and Peter A. van Aken;
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作者单位

Max Planck Institute for Metals Research, D-70569 Stuttgart, Germany;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
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正文语种 eng
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1. An efficient, simple, and precise way to map strain with nanometer resolution in semiconductor devices [J] . Christoph T. Koch, V. Burak OEzdoel, Peter A. van Aken Applied Physicsletters . 2010,第9期

机译：一种高效，简单且精确的方法来绘制半导体器件中具有纳米分辨率的应变图
2. Strain mapping with nm-scale resolution for the silicon-on-insulator generation of semiconductor devices by advanced electron microscopy [J] . Cooper David, Denneulin Thibaud, Barnes Jean-Paul, Journal of Applied Physics . 2012,第12期

机译：通过先进的电子显微镜以纳米尺度分辨率绘制应变图，用于绝缘体上硅的生成半导体器件
3. Strain mapping with nm-scale resolution for the silicon-on-insulator generation of semiconductor devices by advanced electron microscopy [J] . David Cooper, Thibaud Denneulin, Jean-Paul Barnes, Journal of Applied Physics . 2012,第12期

机译：通过先进的电子显微镜以纳米尺度分辨率绘制应变图，用于绝缘体上硅的生成半导体器件
4. Evidence of Ti-related Inclusions in an Al Alloy Interconnecting Layer for Nanometer 256 MBit DRAM Semiconductor Devices Characterized by TEM,.STEM,EELS Elemental Mapping,and XEDS Linescan [C] . Wei Zhao, Steve Graca Materials Research Society Symposium . 2003

机译：用于纳米256 Mbit DRAM半导体器件的Al合金互连层中Ti相关夹杂物的证据，.stem，EELS元素映射和XEDS LineCan
5. Mapping thermoelectric power of semiconductor junctions with nanometer resolution. [D] . Lyeo, Ho-Ki. 2003

机译：用纳米分辨率映射半导体结的热电功率。
6. A simple and efficient method for constructing high resolution physical maps. [O] . K Yoshida, M P Strathmann, C A Mayeda, 1993

机译：一种用于构建高分辨率物理图谱的简单有效的方法。
7. An Application of High-Resolution Dual-Lens Dark-Field Electron Holography in Strain Analysis for Nanometer Semiconductor Device in Wafer-foundries [O] . Wayne Zhao, Yun-yu Wang, Bianzhu Fu 2017

机译：高分辨率双镜头暗场电子全能在晶圆 - 铸造中纳米半导体器件应变分析中的应用

An efficient, simple, and precise way to map strain with nanometer resolution in semiconductor devices

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