Interference and Switching of Josephson Current Carried by Nonlocal Spin-Entangled Electrons in a SQUID-Like System with Quantum Dots

Zhi Wang; Xiao Hu

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Interference and Switching of Josephson Current Carried by Nonlocal Spin-Entangled Electrons in a SQUID-Like System with Quantum Dots

机译：带有量子点的SQUID类系统中非局部自旋纠缠电子携带的约瑟夫逊电流的干扰和转换

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The Josephson current of spin-entangled electrons through the two branches of a SQUID-like structure with two quantum dots exhibits a magnetic-flux response different from the conventional Josephson current. Because of their interference, the period of maximum Josephson current changes from h/2e to h/e, which can be used for detecting the Cooper-pair splitting efficiency. The nonlocal spin entanglement provides a quantum mechanical functionale for switching on and off this novel Josephson current, and explicitly a switch is formulated by including a pilot junction. It is shown that the device can be used to measure the magnitude of split-tunneling Josephson current.

机译：自旋纠缠电子通过具有两个量子点的SQUID型结构的两个分支的约瑟夫森电流表现出不同于常规约瑟夫森电流的磁通量响应。由于它们的干扰，最大约瑟夫森电流的周期从h / 2e变为h / e，可用于检测库珀对分裂效率。非局部自旋纠缠提供了用于接通和断开该新颖的约瑟夫森电流的量子力学功能，并且明确地，通过包括导频结来制定开关。结果表明，该装置可用于测量分隧道的约瑟夫森电流的大小。

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来源
《Physical review letters》 |2011年第3期|p.037002.1-037002.4|共4页
作者
Zhi Wang; Xiao Hu;
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作者单位

WPI Center for Materials Nanoarchitectonics, National Institute for Materials Science, Tsukuba 305-0044, Japan;

WPI Center for Materials Nanoarchitectonics, National Institute for Materials Science, Tsukuba 305-0044, Japan;

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正文语种 eng
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tunneling phenomena; point contacts, weak links, josephson effects; entanglement and quantum nonlocality (e.g. EPR paradox, bell's inequalities, GHZ states, etc.);

机译：隧道现象;点接触;薄弱环节;约瑟夫森效应;纠缠和量子非局部性（例如EPR悖论;贝尔不等式;GHZ状态等）;

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1. Josephson-current-induced Conformational Switching Of A Molecular Quantum Dot [J] . A. Zazunov, A. Schulz, R. Egger Physical review letters . 2009,第4期

机译：约瑟夫森电流诱导的分子量子构象转换
2. Signatures of nonlocal Cooper-pair transport and of a singlet-triplet transition in the critical current of a double-quantum-dot Josephson junction [J] . B. Probst, F. Dominguez, A. Schroer, Physical review. B, Condensed Matter And Materals Physics . 2016,第15期

机译：双量子点约瑟夫森结的临界电流中非局部库珀对迁移和单重态-三重态跃迁的签名。
3. Signatures of nonlocal Cooper-pair transport and of a singlet-triplet transition in the critical current of a double-quantum-dot Josephson junction [J] . Probst B., Dominguez F., Schroer A., Physical review, B . 2016,第15期

机译：双量子点约瑟夫森结的临界电流中非局部库珀对迁移和单重态-三重态跃迁的签名。
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机译：Quantum Dots，Josephson结和分数量子霍尔效应“伪旋转”量子计算装置的电子状态脱机时间研究
5. Quantum dot circuits: Single-electron switch and few-electron quantum dots. [D] . Chan, Ian Hin-Yun. 2003

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6. Quantum Interference and Nonequilibrium Josephson Currents in Molecular Andreev Interferometers [O] . Noel L. Plaszkó, Peter Rakyta, József Cserti, 2020

机译：分子andreev干涉仪中量子干扰和非QoilibiRivium Josephson电流
7. Interference and Switching of Josephson current carried by nonlocal spin-entangled electrons in a SQUID-like system with quantum dots [O] . Wang, Zhi, Hu, Xiao 2010

机译：非局部携带约瑟夫森电流的干扰和切换具有量子点的sQUID系统中的自旋纠缠电子
8. Properties of a GaAs Single Electron Path Switching Node Device Using a Single Quantum Dot for Hexagonal BDD Quantum Circuits [R] . Nakamura, T. , Abe, Y. , Kasai, S. , 2006

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Interference and Switching of Josephson Current Carried by Nonlocal Spin-Entangled Electrons in a SQUID-Like System with Quantum Dots

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