Site-controlled quantum dots grown in inverted pyramids for photonic crystal applications

Pelucchi E; Watanabe S; Leifer K; Dwir B; Kapon E

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Site-controlled quantum dots grown in inverted pyramids for photonic crystal applications

机译：在倒金字塔中生长的站点控制量子点，用于光子晶体应用

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We report on the growth and optical properties of various configurations of sub-micron pitch dense arrays of pyramidal quantum dots (QDs) grown by organometallic chemical vapour deposition on patterned substrates. We show that the effective growth rate of these QDs is influenced by the ratio between the free {1 1 1}B area and {1 1 1}A exposed facets surrounding them. This provides a powerful technique for engineering the energy level structure of ordered QD arrays by means of geometrical patterning of the growth template. Such technique should be particularly useful for applications in photonic crystals incorporating QDs with tailored absorption and/or emission properties. (C) 2004 Elsevier B.V. All rights reserved.

机译：我们报告了由有机金属化学气相沉积在图案化的衬底上生长的金字塔形量子点（QDs）的亚微米间距密集阵列的各种配置的生长和光学特性。我们表明，这些QD的有效增长率受围绕它们的自由{1 1 1} B区域和{1 1 1} A暴露小平面之间的比率的影响。这为通过生长模板的几何图案化设计有序QD阵列的能级结构提供了强大的技术。这种技术对于结合了具有定制吸收和/或发射特性的QD的光子晶体的应用特别有用。（C）2004 Elsevier B.V.保留所有权利。

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《Physica, E. Low-dimensional systems & nanostructures》 |2004年第4期|共6页
作者
Pelucchi E; Watanabe S; Leifer K; Dwir B; Kapon E;
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正文语种 eng
中图分类物理学;
关键词
organometallic chemical vapour deposition (OMCVD); pyramidal quantum dots; site controlled; photoluminescence; cathodoluminescence; photonic crystals; OXYGEN-ADSORPTION; GAAS; MICROCAVITIES; SURFACES; MORPHOLOGY; ARRAYS;

机译：有机金属化学气相沉积（OMCVD）;金字塔形量子点;定点控制;光致发光;阴极发光;光子晶体;氧吸附;GAAS;微腔;表面;形态学;阵列;

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专利

1. Site-controlled quantum dots grown in inverted pyramids for photonic crystal applications [J] . Pelucchi E, Watanabe S, Leifer K, Physica, E. Low-dimensional systems & nanostructures . 2004,第3a4期

机译：在倒金字塔中生长的站点控制量子点，用于光子晶体应用
2. Growth and optical characterization of dense arrays of site-controlled quantum dots grown in inverted pyramids [J] . Watanabe S, Pelucchi E, Dwir B, Physica, E. Low-dimensional systems & nanostructures . 2004,第2a4期

机译：倒金字塔中生长的位置控制量子点致密阵列的生长和光学表征
3. Ordered systems of site-controlled pyramidal quantum dots incorporated in photonic crystal cavities [J] . Surrente A., Felici M., Gallo P., Nanotechnology . 2011,第46期

机译：纳入光子晶体腔中的有序控制的金字塔形量子点的有序系统
4. Integration of Site-Controlled Pyramidal Quantum Dots and Photonic Crystal Membrane Cavities [C] . P. Gallo, M. Felici, B. Dwir, Conference on Lasers and Electro-Optics . 2008

机译：站点控制的金字塔型量子点和光子晶体膜腔的集成
5. Locally controlled photonic crystal devices with coupled quantum dots: Physics and applications. [D] . Faraon, Andrei. 2009

机译：具有耦合量子点的局部控制光子晶体器件：物理和应用。
6. A study of nitrogen incorporation in pyramidal site-controlled quantum dots [O] . Gediminas Juska, Valeria Dimastrodonato, Lorenzo O Mereni, 2011

机译：锥体定点量子点中氮的掺入研究
7. Ordered systems of site-controlled pyramidal quantum dots incorporated in photonic crystal cavities [O] . A Surrente, M Felici, P Gallo, 2011

机译：在光子晶体腔中掺入的站点控制金字塔量子点的有序系统
8. Quantum Dot-Photonic Crystal Cavity QED Based Quantum Information Processing. [R] . Vuckovic, J. 2012

机译：基于量子点光子晶体腔QED的量子信息处理。

Site-controlled quantum dots grown in inverted pyramids for photonic crystal applications

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