Electrical control of a spin qubit in InSb nanowire quantum dots: Strongly suppressed spin relaxation in high magnetic field

Suzana Miladic; Pavle Stipsic; Edib Dobardzic; Marko Milivojevic

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Electrical control of a spin qubit in InSb nanowire quantum dots: Strongly suppressed spin relaxation in high magnetic field

机译：INSB纳米线量子点中的旋转量子位的电气控制：在高磁场中强制抑制旋转舒适

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In this paper we investigate the impact of gating potential and magnetic field on phonon induced spin relaxation rate and the speed of the electrically driven single-qubit operations inside the InSb nanowire spin qubit. We show that a strong g factor and high magnetic field strength lead to the prevailing influence of electron-phonon scattering due to deformation potential, considered irrelevant for materials with a weak g factor, like GaAs or Si/SiGe. In this regime we find that spin relaxation between qubit states is significantly suppressed due to the confinement perpendicular to the nanowire axis. We also find that maximization of the number of single-qubit operations that can be performed during the lifetime of the spin qubit requres single quantum dot gating potential.

机译：在本文中，我们研究了浇注电位和磁场对旋转旋转速率的影响和INSB纳米线纺丝qubit内的电动单反动作的速度。我们表明，由于变形电位，强大的G因子和高磁场强度导致电子 - 声子散射的普遍影响，认为对具有弱G因子的材料无关，例如GaAs或Si / SiGe。在这一制度中，由于垂直于纳米线轴的限制，我们发现Qubit态之间的旋转松弛被显着抑制。我们还发现，在SpinQ Qubit的寿命期间可以在SpinQubit的寿命期间执行的单个Qubit操作的数量来重新计算单量子点门控电位。

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《Physical review》 |2020年第15期|155307.1-155307.8|共8页
作者
Suzana Miladic; Pavle Stipsic; Edib Dobardzic; Marko Milivojevic;
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Faculty of Physics University of Belgrade Studentski trg 12 11001 Belgrade Serbia;

Faculty of Physics University of Belgrade Studentski trg 12 11001 Belgrade Serbia;

Faculty of Physics University of Belgrade Studentski trg 12 11001 Belgrade Serbia;

NanoLab QTP Center Faculty of Physics University of Belgrade Studentski trg 12 11001 Belgrade Serbia Department of Theoretical Physics and Astrophysics Faculty of Science P. J. Safarik University Park Angelinum 9 040 01 Kosice Slovak Republic;

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1. Electrical control of a spin qubit in InSb nanowire quantum dots: Strongly suppressed spin relaxation in high magnetic field [J] . Physical review, B . 2020,第15期

机译：INSB纳米线量子点中的旋转量子位的电气控制：在高磁场中强制抑制旋转舒适
2. Simple scheme for multiqubit quantum controlled phase-flip gate with singlet-triplet spin qubits in nanowire double quantum dots [J] . Fu C.-Z., Song M.-Y. Central European Journal of Physics . 2012,第5期

机译：纳米线双量子点中具有单重态-三重态自旋量子位的多量子位量子控制相翻转门的简单方案
3. Electrically controlled quantum gates for two-spin qubits in two double quantum dots [J] . Guy Ramon Physical review . 2011,第15期

机译：两个双量子点中两个自旋量子位的电控量子门
4. Spin relaxation of excitons in nonmagnetic quantum dots: Effect of spin coupling to magnetic semiconductor quantum dots [C] . S. Lee, M. Dobrowolska, J. K. Furdyna Annual Conference on Magnetism and Magnetic Materials . 2005

机译：非磁性量子点的激子旋转松弛：自旋耦合与磁半导体量子点的效果
5. Electrical control of quantum dot spin qubits. [D] . Laird, Edward Alexander. 2010

机译：量子点自旋量子位的电气控制。
6. Magnetically tunable singlet-triplet spin qubit in a four-electron InGaAs coupled quantum dot [O] . K. M. Weiss, J. Miguel-Sanchez, J. M. Elzerman -1

机译：四电子InGaAs耦合量子点中的磁可调谐单重态-三重态自旋量子比特
7. Electrical control of a spin qubit in InSb nanowire quantum dots: Strongly suppressed spin relaxation in high magnetic field [O] . Suzana Miladić, Pavle Stipsić, Edib Dobardžić, 2020

机译：INSB纳米线量子点中的旋转量子位的电气控制：在高磁场中强制抑制旋转舒适

Electrical control of a spin qubit in InSb nanowire quantum dots: Strongly suppressed spin relaxation in high magnetic field

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