Optically pumping hole spins in coupled quantum dot molecules into a steady state of high concurrence entanglement

Song Yang; Ming Gong; ChuanFeng Li; XuBo Zou; GuangCan Guo

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Optically pumping hole spins in coupled quantum dot molecules into a steady state of high concurrence entanglement

机译：光泵浦空穴使耦合的量子点分子旋转成稳定的高并发纠缠态

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We present a way to prepare a high concurrence steady state entanglement of two hole spins in a quantum dot molecule. We show that the spontaneous dissipation can be used to induce and stabilize the entanglement with rapid rate. By optical pumping of trion levels, two-qubit singlet state can be automatically generated. We also show that our proposal can synchronously accomplish both initialization and entanglement generation. The effects of acoustic phonons and electron tunneling are also discussed and we find that the main influence is from deformation potential coupling to acoustic phonons in InAs/GaAs quantum dots. At low temperature, we show that concurrence of entanglement can be greater than 0.95 at T= 1 K.

机译：我们提出一种方法来准备量子点分子中两个空穴自旋的高并发稳态纠缠。我们表明，自发耗散可以用来诱导和稳定纠缠速度快。通过三重子能级的光泵浦，可以自动生成两个量子比特的单重态。我们还表明，我们的建议可以同步完成初始化和纠缠生成。还讨论了声子和电子隧穿的影响，我们发现主要影响来自InAs / GaAs量子点中形变电势耦合到声子。在低温下，我们表明在T = 1 K时纠缠的并发性可以大于0.95。

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来源
《Physical review》 |2009年第23期|235322.1-235322.7|共7页
作者
Song Yang; Ming Gong; ChuanFeng Li; XuBo Zou; GuangCan Guo;
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作者单位

Key Laboratory of Quantum Information, University of Science and Technology of China, Hefei 230026, People's Republic of China;

Key Laboratory of Quantum Information, University of Science and Technology of China, Hefei 230026, People's Republic of China;

Key Laboratory of Quantum Information, University of Science and Technology of China, Hefei 230026, People's Republic of China;

Key Laboratory of Quantum Information, University of Science and Technology of China, Hefei 230026, People's Republic of China;

Key Laboratory of Quantum Information, University of Science and Technology of China, Hefei 230026, People's Republic of China;

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关键词
quantum dots;

机译：量子点;

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1. Optical pumping of a single hole spin in a p-doped quantum dot coupled to a metallic nanoparticle [J] . M. A. Anton, F. Carreno, Sonia Melle, Physical review . 2013,第19期

机译：耦合到金属纳米粒子的p掺杂量子点中单孔自旋的光泵浦
2. Optical Measurement and Modeling of Interactions between Two Hole Spins or Two Electron Spins in Coupled InAs Quantum Dots [J] . A. Greilich, S.C. Badescu, D. Kim, Physical review letters . 2013,第11期

机译：InAs量子点中两个空穴自旋或两个电子自旋之间相互作用的光学测量和建模
3. Quantum entanglement analysis of an optically excited coupling of two nuclear spins via a mediator: Combining the quantum concurrence and negativity [J] . Fu Chenghua, Hu Zhanning Physica, E. Low-dimensional systems & nanostructures . 2018,第期

机译：通过调解器的两种核旋转的光学激发耦合的量子缠结分析：组合量子同时和消极性
4. Ultrafast optical control of individual electron and hole spin qubits; entanglement between a single quantum dot electron spin and a downconverted, 1560 nm single photon [C] . Kristiaan De Greve, Peter L. McMahon, Leo Yu, Advances in photonics of quantum computing, memory, and communication VI . 2013

机译：单个电子和空穴自旋量子位的超快光学控制；单量子点电子自旋与下转换的1560 nm单光子之间的纠缠
5. Nuclear spin detection and optical pumping in semiconductor quantum dots. [D] . Goldman, Jonathan R. 2005

机译：半导体量子点中的核自旋检测和光泵浦。
6. Scalable quantum computing based on stationary spin qubits in coupled quantum dots inside double-sided optical microcavities [O] . Hai-Rui Wei, Fu-Guo Deng -1

机译：基于双面光微腔内耦合量子点中静态自旋量子位的可扩展量子计算
7. High-concurrence steady-state entanglement of two hole spins in a quantum dot molecular [O] . Yang, Song, Gong, Ming, Li, ChuanFeng, 2009

机译：两个空穴自旋的高并发稳态纠缠量子点分子

Optically pumping hole spins in coupled quantum dot molecules into a steady state of high concurrence entanglement

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