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Design and fabrication of densely integrated silicon quantum dots using a VLSI compatible hydrogen silsesquioxane electron beam lithography process

机译：使用VLsI兼容的氢倍半硅氧烷电子束光刻工艺设计和制造致密集成的硅量子点

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Hydrogen silsesquioxane (HSQ) is a high resolution negative-tone electron beam resist allowing for direct transfer of nanostructures into silicon-on-insulator. Using this resist for electron beam lithography, we fabricate high density lithographically defined Silicon double quantum dot (QD) transistors. We show that our approach is compatible with very large scale integration, allowing for parallel fabrication of up to 144 scalable devices. HSQ process optimisation allowed for realisation of reproducible QD dimensions of 50 nm and tunnel junction down to 25 nm. We observed that 80% of the fabricated devices had dimensional variations of less than 5 nm. These are the smallest high density double QD transistors achieved to date. Single electron simulations combined with preliminary electrical characterisations justify the reliability of our device and process.

机译：氢倍半硅氧烷（HSQ）是高分辨率的负电子束保护剂，可将纳米结构直接转移到绝缘体上硅中。使用该抗蚀剂进行电子束光刻，我们制造了高密度光刻定义的硅双量子点（QD）晶体管。我们证明了我们的方法与大规模集成兼容，从而允许并行制造多达144个可扩展设备。 HSQ工艺优化可实现50 nm的可重现QD尺寸和最小25 nm的隧道结。我们观察到80％的制造设备的尺寸变化小于5 nm。这些是迄今为止实现的最小的高密度双QD晶体管。单电子模拟与初步的电气特性相结合证明了我们设备和工艺的可靠性。

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Lin Y. P.; Husain M. K.; Alkhalil F. M.; Lambert N.; Perez-Barraza J.; Tsuchiya Y.; Ferguson A. J.; Chong H. M. H.; Mizuta H.;
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年度 2012
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正文语种 {"code":"en","name":"English","id":9}
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1. Design and fabrication of densely integrated silicon quantum dots using a VLSI compatible hydrogen silsesquioxane electron beam lithography process [J] . Y.P. Lin, M.K. Husain, F.M. Alkhalil, Microelectronic Engineering . 2012,第OCTa期

机译：使用兼容VLSI的倍半硅氧烷氢束电子束光刻工艺设计和集成致密集成的硅量子点
2. VLSI Compatible Parallel Fabrication of Scalable Few Electron Silicon Quantum Dots [J] . Lin Y.P., Perez-Barraza J.I., Husain M.K., IEEE transactions on nanotechnology . 2013,第6期

机译：可扩展的几个电子硅量子点的VLSI兼容并行制造
3. Fabrication of sub-10 nm silicon carbon nitride resonators using a hydrogen silsesquioxane mask patterned by electron beam lithography [J] . MA Mohammad, S.K. Dew, S. Evoy, Microelectronic Engineering . 2011,第8期

机译：使用通过电子束光刻构图的氢倍半硅氧烷掩模制作低于10 nm的氮化硅碳氮化物谐振器
4. VLSI compatible parallel fabrication of scalable few electron silicon quantum dots [C] . Lin Yun P., Perez-Barraza Julia I., Husain Muhammad K., 2012 12th IEEE International Conference on Nanotechnology. . 2012

机译：与VLSI兼容的可扩展少数电子硅量子点的并行制造
5. Silicon and silicon-germanium epitaxy for quantum dot device fabrications towards an electron spin-based quantum computer. [D] . Yao, Kun. 2009

机译：硅和硅锗外延用于制造基于电子自旋的量子计算机的量子点器件。
6. Highly indistinguishable photons from deterministic quantum-dot microlenses utilizing three-dimensional in situ electron-beam lithography [O] . M. Gschrey, A. Thoma, P. Schnauber, -1

机译：利用三维原位电子束光刻技术将高分辨光子与确定性量子点微透镜区分开
7. Fabrication of Silicon-based single spin quantum devices using Hydrogen silsesquioxane electron beam resist [O] . Husain Muhammad, Lin Yun, Alkhalil Feras, 2011

机译：使用氢倍半硅氧烷电子束抗蚀剂制造硅基单自旋量子器件

Design and fabrication of densely integrated silicon quantum dots using a VLSI compatible hydrogen silsesquioxane electron beam lithography process

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