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Molecular beam epitaxy growth of site-controlled InAs/GaAs quantum dots defined by soft photocurable nanoimprint lithography

机译：通过软光固化纳米压印光刻技术定义的位控InAs / GaAs量子点的分子束外延生长

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[[abstract]]Molecular-beam epitaxy grown InAs site-controlled quantum dots (SCQDs) have been demonstrated on GaAs substrates patterned with a dense array of 100 nm square nanopores in 200 nm pitch by soft photocurable nanoimprint lithography. The effects of different growth parameters, including GaAs buffer-layer thickness and arsenic overpressure, on SCQD formation are investigated. The buffer-layer thickness is found to be an influential factor affecting homogeneous quantum dot (QD) formation under a certain pore depth. After GaAs buffer-layer deposition with a suitable thickness, a single QD has been achieved in each patterned nanopore. Under an optimal arsenic overpressure, more uniformly distributed SCQDs have also been shown, confirmed by a narrower photoluminescence linewidth. Strong room-temperature photoluminescence indicates a high optical-quality QD layer on a defect-free interface.

机译：[[摘要]]在分子束外延生长的InAs位置控制量子点（SCQD）上已通过软光固化纳米压印光刻技术在以200 nm间距的100 nm方形纳米孔的密集阵列进行图案化的GaAs衬底上得到了证明。研究了包括GaAs缓冲层厚度和砷超压在内的不同生长参数对SCQD形成的影响。发现缓冲层厚度是在一定孔深度下影响均质量子点（QD）形成的影响因素。在以适当的厚度沉积GaAs缓冲层之后，已在每个图案化的纳米孔中实现了单个QD。在最佳砷超压下，还显示出更均匀分布的SCQD，这由较窄的光致发光线宽所证实。强大的室温光致发光表明无缺陷界面上具有高光学质量的QD层。

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Chien-Chia Cheng;
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年度 2012
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1. Molecular-beam epitaxy growth of site-controlled InAs/GaAs quantum dots defined by soft photocurable nanoimprint lithography [J] . Chien-Chia Cheng, K. Meneou, K. Y. Cheng Journal of Vacuum Science & Technology . 2010,第3期

机译：通过软光固化纳米压印光刻技术定义的位控InAs / GaAs量子点的分子束外延生长
2. High optical quality InAs site-controlled quantum dots grown on soft photocurable nanoimprint lithography patterned GaAs substrates [J] . Chien-Chia Cheng, K. Meneou, K. Y. Cheng Applied Physicsletters . 2009,第17期

机译：在可光固化的纳米压印光刻图案化的GaAs衬底上生长的高光学质量InAs位置控制量子点
3. Large array of single, site-controlled InAs quantum dots fabricated by UV-nanoimprint lithography and molecular beam epitaxy [J] . Schramm A., Tommila J., Strelow C., Nanotechnology . 2012,第17期

机译：通过紫外纳米压印光刻和分子束外延制造的单个位置控制的InAs量子点的大阵列
4. Fabrication of lateral InAs quantum-dot-molecules on InGaAs square-like nanohole templates by 2-step growth technique using molecular beam epitaxy (MBE) [C] . Prapasawad Nattapa, Prongjit Patchareewan, Panyakeow Somsak, International Conference on Electrical Engineering/Electronics, Computer, Telecommunications and Information Technology . 2015

机译：通过分子束外延（MBE）两步生长技术在InGaAs方形纳米孔模板上制备侧向InAs量子点分子
5. Alternating molecular beam epitaxy and characterization of InGaAs quantum dots and quantum dot lasers. [D] . Mirin, Richard Paul. 1996

机译：InGaAs量子点和量子点激光器的交替分子束外延和表征。
6. Self-assembled GaInNAs/GaAsN quantum dot lasers: solid source molecular beam epitaxy growth and high-temperature operation [O] . SF Yoon, CY Liu, ZZ Sun, 2006

机译：自组装GaInNAs / GaAsN量子点激光器：固体源分子束外延生长和高温操作
7. Molecular beam epitaxy of modulation doped N-AlGaAs/(InAs/GaAs)/GaAs superlattices at thikness of InAs layers below and near threshold of nucleation quantum dots for high frequency applications [O] . Mokerov V.G., Fedorov Yu.V., Hook A.V., 2000

机译：在高频应用中，在成核量子点阈值以下和附近的InAs层厚度下，调制掺杂N-AlGaAs /（InAs / GaAs）/ GaAs超晶格的分子束外延

Molecular beam epitaxy growth of site-controlled InAs/GaAs quantum dots defined by soft photocurable nanoimprint lithography

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