Coherence of a dynamically decoupled quantum-dot hole spin

Huthmacher L.; Stockill R.; Clarke E.; Hugues M.; Le Gall C.; Atature M.

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Coherence of a dynamically decoupled quantum-dot hole spin

机译：动态解耦量子点旋转的相干性

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A heavy hole confined to an InGaAs quantum dot promises the union of a stable spin and optical coherence to form a near perfect, high-bandwidth spin-photon interface. Despite theoretical predictions and encouraging preliminary measurements, the dynamic processes determining the coherence of the hole spin are yet to be understood. Here, we establish the regimes that allow for a highly coherent hole spin in these systems, recovering a crossover from hyperfine to electrical-noise dominated decoherence with a few-Tesla external magnetic field. Dynamic decoupling allows us to reach the longest ground-state coherence time, T-2, of 4.0 +/- 0.2 mu s, observed in this system. The improvement of coherence we measure is quantitatively supported by an independent analysis of the local electrical environment.

机译：局限于InGaAs量子点的沉重孔应承担稳定的旋转和光学相干的联合，以形成近乎完美的高带宽旋转光子界面。尽管理论上预测和鼓励初步测量，但确定孔旋转的相干性的动态过程尚待理解。在这里，我们建立了允许在这些系统中旋转高度相干孔的制度，从少量Tesla外部磁场中恢复从超细的过血管占电噪声扑弹的交叉。动态去耦使我们能够达到在该系统中观察到的4.0 +/-0.2μs的最长的地面相干时间T-2。通过对本地电气环境的独立分析，我们测量的相干性的改善。

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《Physical review, B》 |2018年第24期|共5页
作者
Huthmacher L.; Stockill R.; Clarke E.; Hugues M.; Le Gall C.; Atature M.;
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Univ Cambridge Cavendish Lab JJ Thomson Ave Cambridge CB3 0HE England;

Univ Cambridge Cavendish Lab JJ Thomson Ave Cambridge CB3 0HE England;

Univ Sheffield EPSRC Natl Ctr Technol 3 5 Sheffield S1 3JD S Yorkshire England;

Univ Cote Azur CNRS CRHEA Valbonne France;

Univ Cambridge Cavendish Lab JJ Thomson Ave Cambridge CB3 0HE England;

Univ Cambridge Cavendish Lab JJ Thomson Ave Cambridge CB3 0HE England;

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正文语种 eng
中图分类固体物理学;
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1. Coherence of a dynamically decoupled quantum-dot hole spin [J] . L. Huthmacher, R. Stockill, E. Clarke, Physical review. B, Condensed Matter And Materals Physics . 2018,第24期

机译：动态解耦量子点空穴自旋的相干性
2. Coherence time of decoupled nuclear spins in silicon [J] . T. D. Ladd, D. Maryenko, Y. Yamamoto, Physical review. B, Condensed Matter And Materals Physics . 2005,第1期

机译：硅中解耦核自旋的相干时间
3. Theory of box-model hyperfine couplings and transport signatures of long-range nuclear-spin coherence in a quantum-dot spin valve [J] . Stefano Chesi, W. A. Coish Physical review . 2015,第24期

机译：量子点自旋阀中长距离核自旋相干的箱式超精细耦合理论和传输特征
4. The Role of Decoupled Electron and Hole Dynamics in the Turn-on Behavior of Semiconductor Quantum-Dot Lasers [C] . Kathy Ludge, Ermin Malic, Eckehard Scholl International Conference on the Physics of Semiconductors . 2009

机译：去耦电子和孔动力学在半导体量子点激光器的导通行为中的作用
5. Dynamics and coherence of systems with two and three unpaired spins. [D] . Mi, Qixi. 2009

机译：具有两个和三个不成对自旋的系统的动力学和相干性。
6. Dynamics of probing a quantum-dot spin qubit with superconducting resonator photons [O] . Xing-Yu Zhu, Tao Tu, Ao-Lin Guo, -1

机译：用超导谐振子光子探测量子点自旋量子比特的动力学
7. Coherence of a dynamically decoupled quantum-dot hole spin [O] . Huthmacher, L., Stockill, R., Clarke, E., 2017

机译：动态解耦的量子点空穴自旋的相干性

Coherence of a dynamically decoupled quantum-dot hole spin

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