Locking of electron spin coherence above 20 ms in natural silicon carbide

D. Simin; H. Kraus; A. Sperlich; T. Ohshima; G. V. Astakhov; V. Dyakonov

首页> 外文期刊>Physical Review. B, Condensed Matter >Locking of electron spin coherence above 20 ms in natural silicon carbide

【24h】

Locking of electron spin coherence above 20 ms in natural silicon carbide

机译：在天然碳化硅中锁定20毫秒以上的电子旋转相干性

获取原文

获取原文并翻译 | 示例

掌桥外文数据库（机构版） >>

开具论文收录证明 >>

文献代查 >>

页面导航

摘要
著录项
相似文献
相关主题

摘要

We demonstrate that silicon carbide (SiC) with a natural isotope abundance can preserve a coherent spin superposition in silicon vacancies over an unexpectedly long time exceeding 20 ms. The spin-locked subspace with a drastically reduced decoherence rate is attained through the suppression of heteronuclear spin crosstalking by applying a moderate magnetic field in combination with dynamic decoupling from the nuclear spin baths. Furthermore, we identify several phonon-assisted mechanisms of spin-lattice relaxation and find that it can be extremely long at cryogenic temperatures, equal to or even longer than 10 s.Our approach may be extended to other polyatomic compounds and opens a path towards improved qubit memory for wafer-scale quantum technologies.

机译：我们证明，具有天然同位素丰度的碳化硅（SiC）可以在超过20毫秒的意外长时间内保持硅空位中的相干旋转叠加。通过抑制与核自旋浴的动态去耦合施加中等磁场，通过抑制出杂核旋转串扰，旋转锁定的子空间。此外，我们确定了几种旋转晶格弛豫机制的旋转晶格弛豫机制，并发现它在低温温度下可以非常长，等于或甚至长于10s。可能的方法可以扩展到其他多酸酯化合物，并打开一个改进的路径晶圆级量子技术的QUBit存储器。

著录项

来源
《Physical Review. B, Condensed Matter》 |2017年第16期|161201.1-161201.5|共5页
作者
D. Simin; H. Kraus; A. Sperlich; T. Ohshima; G. V. Astakhov; V. Dyakonov;
展开▼
作者单位

Experimental Physics Ⅵ Julius-Maximilian University of Wuerzburg 97074 Wuerzburg Germany;

Experimental Physics Ⅵ Julius-Maximilian University of Wuerzburg 97074 Wuerzburg Germany National Institutes for Quantum and Radiological Science and Technology Takasaki Gunma 370-1292 Japan;

Experimental Physics Ⅵ Julius-Maximilian University of Wuerzburg 97074 Wuerzburg Germany;

National Institutes for Quantum and Radiological Science and Technology Takasaki Gunma 370-1292 Japan;

Experimental Physics Ⅵ Julius-Maximilian University of Wuerzburg 97074 Wuerzburg Germany;

Experimental Physics Ⅵ Julius-Maximilian University of Wuerzburg 97074 Wuerzburg Germany Bavarian Center for Applied Energy Research (ZAE Bayern) 97074 Wuerzburg Germany;

展开▼
收录信息
原文格式 PDF
正文语种 eng
中图分类
关键词

相似文献

外文文献
中文文献
专利

1. Locking of electron spin coherence above 20 ms in natural silicon carbide [J] . D. Simin, H. Kraus, A. Sperlich, Physical review. B, Condensed Matter And Materals Physics . 2017,第16期

机译：在天然碳化硅中将电子自旋相干锁定在20 ms以上
2. Isolated electron spins in silicon carbide with millisecond coherence times [J] . David J. Christle, Abram L. Falk, Paolo Andrich, Nature Materials . 2015,第2期

机译：孤立的电子在碳化硅中以毫秒相干时间自旋
3. Planar channeling radiation by 20-800 MeV electrons in a thin silicon carbide [J] . B. Azadegan, S. B. Dabagov The European Physical Journal Plus . 2011,第6期

机译：薄碳化硅中20-800 MeV电子的平面沟道辐射
4. Extension of electron spin coherence in a quantum dot via CPT-locking of the Overhauser field [C] . Dorian Gangloff, Gabriel Éthier-Majcher, Robert Stockill, Conference on Lasers and Electro-Optics Europe;European Quantum Electronics Conference . 2017

机译：通过Overhauser场的CPT锁定扩展量子点中电子自旋相干性
5. Coherence and Coupling of Driven Spins in Silicon Carbide [D] . Miao, Kevin Chenghao. 2020

机译：碳化硅驱动旋转的相干性与耦合
6. Crystal structures and the electronic properties of silicon-rich silicon carbide materials by first principle calculations [O] . Noura D. Alkhaldi, Sajib K. Barman, Muhammad N. Huda 2019

机译：通过第一原理计算的富硅碳化硅材料的晶体结构和电子性能
7. Locking of electron spin coherence over fifty milliseconds in natural silicon carbide [O] . Simin, D., Kraus, H., Sperlich, A., 2016

机译：在自然界中锁定电子自旋相干超过50毫秒碳化硅

Locking of electron spin coherence above 20 ms in natural silicon carbide

摘要

著录项

相似文献

相关主题

期刊订阅