Quantitative scanning thermal microscopy of ErAs/GaAs superlattice structures grown by molecular beam epitaxy

Park K. W.; Nair H. P.; Crook A. M.; Bank S. R.; Yu E. T.

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Quantitative scanning thermal microscopy of ErAs/GaAs superlattice structures grown by molecular beam epitaxy

机译：分子束外延生长的ErAs / GaAs超晶格结构的定量扫描热显微镜

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A proximal probe-based quantitative measurement of thermal conductivity with ∼100–150 nm lateral and vertical spatial resolution has been implemented. Measurements on an ErAs/GaAs superlattice structure grown by molecular beam epitaxy with 3% volumetric ErAs content yielded thermal conductivity at room temperature of 9 ± 2 W/m K, approximately five times lower than that for GaAs. Numerical modeling of phonon scattering by ErAs nanoparticles yielded thermal conductivities in reasonable agreement with those measured experimentally and provides insight into the potential influence of nanoparticle shape on phonon scattering. Measurements of wedge-shaped samples created by focused ion beam milling provide direct confirmation of depth resolution achieved.

机译：已经实现了基于探针的近端热导率定量测量，横向和垂直空间分辨率约为100-150 nm。对分子束外延生长的ErAs / GaAs超晶格结构进行测量，发现其ErAs含量为3％，室温下的导热系数为9±2 W / m K，比GaAs低约5倍。 ErAs纳米粒子对声子散射的数值模型得出的热导率与实验测得的值具有合理的一致性，并提供了对纳米颗粒形状对声子散射的潜在影响的见解。通过聚焦离子束铣削产生的楔形样品的测量结果可以直接确认所达到的深度分辨率。

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来源
《Applied Physics Letters》 |2013年第6期|p.1-5|共5页
作者
Park K. W.; Nair H. P.; Crook A. M.; Bank S. R.; Yu E. T.;
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作者单位

Microelectronics Research Center, University of Texas at Austin, 10100 Burnet Rd., Austin, Texas 78758, USA;

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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);
原文格式 PDF
正文语种 eng
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III-V semiconductors; erbium compounds; focused ion beam technology; gallium arsenide; milling; molecular beam epitaxial growth; nanocomposites; nanofabrication; nanoparticles; numerical analysis; phonons; superlattices; thermal conductivity; 6322-m; 6670Df; 8107-b;

机译：III-V半导体;compounds化合物;聚焦离子束技术;砷化镓铣削分子束外延生长;纳米复合材料纳米加工纳米粒子数值分析;声子超晶格导热系数;6322米6670Df;8107-b;

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1. Quantitative scanning thermal microscopy of ErAs/GaAs superlattice structures grown by molecular beam epitaxy [J] . K. W. Park, H. P. Nair, A. M. Crook, Applied Physics Letters . 2013,第6期

机译：分子束外延生长的ErAs / GaAs超晶格结构的定量扫描热显微镜
2. Cross-sectional scanning thermal microscopy of ErAs/GaAs superlattices grown by molecular beam epitaxy [J] . Park K. W., Krivoy E. M., Nair H. P., Nanotechnology . 2015,第26期

机译：分子束外延生长的ErAs / GaAs超晶格的截面扫描热显微镜
3. Transmission electron microscopy studies of GaAs nanostructures in InGaAs/InP matrix grown by molecular beam epitaxy [J] . S. D. Lin, Z. C. Lin, C. P. Lee Journal of Applied Physics . 2006,第5期

机译：分子束外延生长InGaAs / InP基体中GaAs纳米结构的透射电镜研究
4. Reciprocal space X-ray mapping and transmission electron microscopic studies of coincided δ-InAs and As-cluster superlattices in GaAs films grown by molecular-beam epitaxy at low temperature [C] . V. V. Chaldyshev, N. A. Bert, N. N. Faleev, Symposium on self-organized processes in semiconductor alloys . 2000

机译：在低温下通过分子束外延生长的GaAs膜中的一致δ-ina和簇超晶格的倒数空间X射线测绘和透射电子显微镜研究
5. Cross-sectional scanning tunneling microscopy studies of type-II superlattices and quantum wells grown by molecular beam epitaxy. [D] . Harper, John Raymond. 1999

机译：截面扫描隧道显微镜研究II型超晶格和分子束外延生长的量子阱。
6. Molecular beam epitaxy and properties of GaAsBi/GaAs quantum wells grown by molecular beam epitaxy: effect of thermal annealing [O] . Hajer Makhloufi, Poonyasiri Boonpeng, Simone Mazzucato, 2014

机译：分子束外延生长的分子束外延和GaAsBi / GaAs量子阱的性质：热退火的影响
7. High-resolution electron microscopy and X-ray diffraction characterization of alternately strained (GaAs)n(GaP)m(GaAs)n(InP)m superlattices grown by Atomic Layer Molecular Beam Epitaxy. [O] . Ballesteros Carmen, Gerthsen D., Mazuelas Esteban Ángel José, 2012

机译：原子层分子束外延生长的交替应变（GaAs）n（GaP）m（GaAs）n（InP）m超晶格的高分辨率电子显微镜和X射线衍射表征。

Quantitative scanning thermal microscopy of ErAs/GaAs superlattice structures grown by molecular beam epitaxy

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