Si–Si optical phonon behavior in localized Si clusters of Si<sub>x</sub>Ge<sub>1−x</sub> alloy nanocrystals

L. Z. Liu; X. L. Wu; Y. M. Yang; T. H. Li; Paul K. Chu

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Si–Si optical phonon behavior in localized Si clusters of Si_xGe_1−x alloy nanocrystals

机译：Si _{x Ge _{1-x 合金纳米晶体局部Si团簇中的Si–Si光学声子行为}}

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Raman spectra acquired from Si_xGe_1−x-nanocrystal-embedded SiO₂ films show dependence of the Si–Si optical phonon frequency on Si content. The frequency upshifts, and peak intensity increases as the silicon concentration increases. For a given Si content, the frequency remains unchanged with annealing temperature. Spectral analysis and density functional theory calculation reveal that the optical Si–Si phonon is related to the formation of localized Si clusters surrounded by Si/Ge atomic layers in the Si_xGe_1−x nanocrystals and the intensity enhancement arises from the larger cluster size. The synergetic effect of surface tensile stress and phonon confinement determines the Si–Si optical phonon behavior.

机译：从Si _{x Ge _{1-x -纳米晶体嵌入的SiO _{2 薄膜获得的拉曼光谱显示Si-Si光学声子频率对Si的依赖性内容。频率上升，并且峰值强度随着硅浓度的增加而增加。对于给定的Si含量，频率随退火温度保持不变。光谱分析和密度泛函理论计算表明，光学Si–Si声子与Si _{x Ge _{1-x <中被Si / Ge原子层包围的局部Si团簇的形成有关。纳米晶体和强度增强来自较大的团簇尺寸。表面拉伸应力和声子约束的协同作用决定了Si-Si光学声子的行为。}}}}}

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《Applied Physics A: Materials Science & Processing》 |2011年第2期|p.361-365|共5页
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L. Z. Liu; X. L. Wu; Y. M. Yang; T. H. Li; Paul K. Chu;
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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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1. Si-Si optical phonon behavior in localized Si clusters of Si_xGe_(1-x) alloy nanocrystals [J] . L.Z. Liu, X.L. Wu, Y.M. Yang, Applied Physics . 2011,第2期

机译：Si_xGe_（1-x）合金纳米晶体局部Si团簇中的Si-Si光学声子行为
2. Dependency of a localized phonon mode intensity on compositional cluster size in SiGe alloys [J] . Sylvia Yuk Yee Chung, Motohiro Tomita, Junya Takizawa, AIP Advances . 2021,第7期

机译：局部声子模式强度对SiGe合金组成簇大小的依赖性
3. Confinement effect of optical phonons in Si-Ge alloy nanocrystals [J] . Yang YM, Wu XL, Huang GS, Physics Letters, A . 2005,第3a5期

机译：Si-Ge合金纳米晶体中光子的局限效应
4. Defects and phonon assisted optical transitions in Si nanocrystals [C] . G. Allan, C. Delerue, M. Lannoo, Symposium on microcrystalline and nanocrystalline semiconductors . 1999

机译：Si NanoCrystals中的缺陷和声子辅助光学过渡
5. Effect of Minor Alloying Elements on Localized Corrosion Behavior of Aluminum-Copper-Magnesium based Solid Solution Alloys. [D] . Aburada, Tomohiro. 2011

机译：微量合金元素对铝-铜-镁基固溶合金局部腐蚀行为的影响。
6. Characterization of Nanocrystal Size Distribution using Raman Spectroscopy with a Multi-particle Phonon Confinement Model [O] . İlker Doğan, Mauritius C. M. van de Sanden 2015

机译：使用多粒子声子约束模型的拉曼光谱表征纳米晶体的尺寸分布
7. Erratum: Effects of alloy disorder and confinement on phonon modes and Raman scattering in SixGe1-x nanocrystals: A microscopic modeling [O] . Vasin A. S., Vikhrova O. V., Vasilevskiy Mikhail 2015

机译：勘误：合金无序和约束对SixGe1-x纳米晶体中声子模和拉曼散射的影响：微观模型

Si–Si optical phonon behavior in localized Si clusters of SixGe1−x alloy nanocrystals

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Si–Si optical phonon behavior in localized Si clusters of Si_xGe_1−x alloy nanocrystals