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Structural Evolution During Formation and Filling of Self-patterned Nanoholes on GaAs (100) Surfaces

机译：GaAs（100）表面上自构纳米孔的形成和填充过程中的结构演变

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摘要

Nanohole formation on an AlAs/GaAs superlattice gives insight to both the “drilling” effect of Ga droplets on AlAs as compared to GaAs and the hole-filling process. The shape and depth of the nanoholes formed on GaAs (100) substrates has been studied by the cross-section transmission electron microscopy. The Ga droplets “drill” through the AlAs layer at a much slower rate than through GaAs due to differences in activation energy. Refill of the nanohole results in elongated GaAs mounds along the [01−1] direction. As a result of capillarity-induced diffusion, GaAs favors growth inside the nanoholes, which provides the possibility to fabricate GaAs and AlAs nanostructures.

机译：在AlAs / GaAs超晶格上形成纳米孔可以洞悉Ga液滴与GaAs相比在AlAs上的“钻孔”效果以及空穴填充过程。通过截面透射电子显微镜研究了在GaAs（100）衬底上形成的纳米孔的形状和深度。由于激活能的差异，Ga液滴以比通过GaAs慢得多的速率“钻”入AlAs层。纳米孔的重新填充导致沿[01-1]方向拉长的GaAs堆。由于毛细管现象引起的扩散，GaAs有利于纳米孔内部的生长，从而提供了制造GaAs和AlAs纳米结构的可能性。

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期刊名称 Nanoscale Research Letters
作者
KA Sablon; Zh M Wang; GJ Salamo; Lin Zhou; David J Smith;
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作者单位

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年(卷),期 2008(3),12
年度 2008
页码 530–533
总页数 4
原文格式 PDF
正文语种
中图分类生化遗传学;生化药理学;
关键词
Atomic force microscopy Transmission electron microscopy Molecular beam epitaxy;

机译：原子力显微镜;透射电子显微镜;分子束外延;

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专利

1. Nanohole formation on AlGaAs surfaces by local droplet etching with gallium [J] . Ch. Heyn, A. Stemmann, W. Hansen Journal of Crystal Growth . 2009,第7期

机译：通过镓局部滴蚀在AlGaAs表面形成纳米孔
2. Structural and electronic properties of Bi-adsorbate-stabilized reconstructions on the InP(100) and GaAs_xN_(1-x)(100) surfaces [J] . P. Laukkanen, J. Pakarinen, M. Ahola-Tuomi, Physical review. B, Condensed Matter And Materials Physics . 2006,第15期

机译：在InP（100）和GaAs_xN_（1-x）（100）表面上双吸附物稳定的重构物的结构和电子性质
3. Electronic and structural properties of GaAs(100)(2X4) and InAs(100)(2X4) surfaces studied by core-level photoemission and scanning tunneling microscopy [J] . P. Laukkanen, M. Kuzmin, R. E. Peraelae, Physical review. B, Condensed Matter And Materials Physics . 2005,第4期

机译：GaAs（100）（2X4）和InAs（100）（2X4）表面的电子和结构性质，通过核心级光发射和扫描隧道显微镜研究
4. Evolution of Surface Topography OnGaAs(100) And GaAs(111) At Normal AndOblique Incidence of Ar~+-Ions [C] . V Venugopal, P Das, T Basu, International Conference on Advanced Nanomaterials and Nanotechnology . 2010

机译：表面形貌的进化ongaas（100）和GaAs（111）在正常的Andoblique Ar〜+ - 〜+ - + - 〜+ --ions
5. Surface Chemistry and Interface Evolution during the Atomic Layer Deposition of High-k Metal Oxides on InAs(100) and GaAs(100) Surfaces. [D] . Henegar, Alex J. 2015

机译：在InAs（100）和GaAs（100）表面上高k金属氧化物原子层沉积过程中的表面化学和界面演化。
6. Influence of Plastic Deformation on Microstructural Evolution of 100Cr6 Bearing Ring in Hot Ring Rolling [O] . Guanghua Zhou, Wenting Wei, Qinglong Liu 2020

机译：塑性变形对热环轧制100Cr6轴承环的微观结构演化的影响
7. Structural Evolution During Formation and Filling of Self-patterned Nanoholes on GaAs (100) Surfaces [O] . K. A. Sablon, Zh. M. Wang, G. J. Salamo, 2008

机译：GaAs（100）表面上自构纳米孔的形成和填充过程中的结构演变
8. Transmission Electron Microscopy Study of InGaAs/GaAs Structural Evolution Near the Stranski-Krastanow Transformation [R] . Leon, R., Wellman, J., George, T. 1999

机译：stranski-Krastanow变换附近InGaas / Gaas结构演化的透射电子显微镜研究

Structural Evolution During Formation and Filling of Self-patterned Nanoholes on GaAs (100) Surfaces

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