Atomic qubits in silicon

机译：硅中的原子Qubits

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Extremely long electron and nuclear spin coherence times have been demonstrated in isotopically pure Si-28 [1, 2] making silicon a promising semiconductor material for spin-based quantum information. The two-level spin state of single electrons bound to shallow phosphorus donors in silicon in particular provide well defined, reproducible qubits [3]. An important challenge in these systems is the realisation of an architecture, where we can position donors within a crystalline environment with approx. 20-50nm separation, individually address each donor, manipulate the electron spins using ESR techniques and read-out their spin states.

机译：在同位素纯的Si-28 [1,2]中已经证明了极长的电子和核自旋相干时间，使硅是基于旋转的量子信息的有希望的半导体材料。在硅中与浅磷供体相结合的单级旋转状态，特别是提供良好定义的可重复Qubits [3]。这些系统中的一个重要挑战是实现架构，在那里我们可以在晶体环境中定位施主的施主。 20-50nm分离，单独寻址每个供体，使用ESR技术操纵电子旋转，并读出其旋转状态。

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《Silicon Nanoelectronics Workshop》|2019年|1 v.|共2页
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Michelle Y. Simmons;
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中图分类一般性问题;
关键词
Silicon; Qubit; Nanotechnology; Computer architecture; Logic gates; Communications technology;

机译：硅;qubit;纳米技术;计算机架构;逻辑门;通信技术;

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专利

1. Atomic clock transitions in silicon-based spin qubits [J] . Wolfowicz G., Tyryshkin A.M., George R.E., Nature nanotechnology . 2013,第8期

机译：基于硅的自旋量子位中的原子时钟转换
2. Controlling Entropy Squeezing of Atomic Qubit in the Microwave Cavity by Manipulating the other Atomic Qubit Outside the Cavity [J] . Liu Xiao-Juan, Peng Zhao-Hui, Zhou Bing-Ju, International Journal of Theoretical Physics: A Journal of Original Research and Reviews in Theoretical Physics and Related Mathematics, Dedicated to the Unification of Physics . 2015,第4期

机译：通过操纵腔体内的另一个原子量子位来控制微波腔中原子量子位的熵压缩
3. Preparation of optimal entropy squeezing state of atomic qubit inside the cavity via two-photon process and manipulation of atomic qubit outside the cavity [J] . Zhou Bing-Ju, Peng Zhao-Hui, Jia Chun-Xia, 中国物理：英文版 . 2014,第012期

机译：通过双光子过程和腔外原子量子位的制备来制备腔内原子量子位的最佳熵压缩态
4. Formation of silicon carbide defect qubits with optically transparent electrodes and atomic layer deposited silicon oxide surface passivation [C] . O.M. Nayfeh, B. Higa B. Liu, P. Sims, Conference on quantum photonic devices . 2017

机译：用光学透明电极和沉积的原子层沉积的氧化硅表面钝化形成碳化硅缺陷量子比特
5. Single- and two-qubit operations on an atomic qubit array. [D] . Maller, Kara Marie. 2015

机译：原子量子位数组上的单量子位和二量子位运算。
6. Ultrafast Ramsey interferometry to implement cold atomic qubit gates [O] . Jongseok Lim, Han-gyeol Lee, Sangkyung Lee, -1

机译：超快Ramsey干涉测量技术可实现冷原子量子比特门
7. Atomic clock transitions in silicon-based spin qubits [O] . Wolfowicz, Gary, Tyryshkin, Alexei M., George, Richard E., 2013

机译：基于硅的自旋量子位的原子钟转换
8. Optically Controlled Distributed Quantum Computing Using Atomic Ensembles As Qubits. [R] . Shahriar, S. M. 2016

机译：使用原子集合作为Qubits的光控分布式量子计算。

Atomic qubits in silicon

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