Optical Spin Initialization of Nitrogen Vacancy Centers in a 28Si-Enriched 6H-SiC Crystal for Quantum Technologies

IF 1.4 4区物理与天体物理 Q3 PHYSICS, MULTIDISCIPLINARY

JETP Letters Pub Date : 2024-06-04 DOI:10.1134/S0021364024600708

F. F. Murzakhanov, M. A. Sadovnikova, G. V. Mamin, D. V. Shurtakova, E. N. Mokhov, O. P. Kazarova, M. R. Gafurov

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Abstract

High-spin defect centers in crystal matrices are used in quantum computing technologies, highly sensitive sensors, and single-photon sources. In this work, optically active nitrogen-vacancy color centers NV^– in a ²⁸Si-enriched (nuclear spin \(I = 0\)) 6H-²⁸SiC crystal have been studied using the photoinduced (\(\lambda \) = 980 nm) high-frequency (94 GHz, 3.4 T) pulsed electron paramagnetic resonance method at a temperature of \(T = 150{\kern 1pt} \) K. Three structurally nonequivalent types of NV^– centers with axial symmetry have been identified and their spectroscopic parameters have been determined. Long spin–lattice, \({{T}_{1}} = 1.3{\kern 1pt} \) ms, and spin–spin, \({{T}_{2}} = 59{\kern 1pt} \) μs, ensemble relaxation times of NV^– centers with extremely narrow (450 kHz) absorption lines allow highly selective excitation of resonant transitions between sublevels \(({{m}_{I}})\) caused by the weak hyperfine interaction \((A \approx 1{\kern 1pt} \) MHz) with ¹⁴N \((I = 1)\) nuclei for the quantum manipulation of the electron spin magnetization.

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用于量子技术的 28Si-Enriched 6H-SiC 晶体中氮空位中心的光学自旋初始化

晶体基质中的高自旋缺陷中心可用于量子计算技术、高灵敏度传感器和单光子源。在这项工作中，使用光诱导（\(\lambda \) = 980 nm）高频（94 GHz, 3.在温度为 \(T = 150{kern 1pt} \) K 的条件下，采用光诱导（（\lambda \ = 980 nm）高频（94 GHz, 3.长自旋晶格，（{{T}_{1}} = 1.3{\kern 1pt} \）ms，自旋-自旋，（{{T}_{2}} = 59{\kern 1pt} \）μs、NV-中心的集合弛豫时间具有极窄（450 kHz）的吸收线，可以高度选择性地激发与 14N \((I = 1)\)原子核之间由弱超细相互作用 \((A \approx 1{\kern 1pt} \)MHz)引起的子级\(({{m}_{I})\)之间的共振跃迁，从而实现电子自旋磁化的量子操纵。

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来源期刊

JETP Letters 物理-物理：综合

CiteScore

2.40

自引率

30.80%

发文量

164

审稿时长

3-6 weeks

期刊介绍： All topics of experimental and theoretical physics including gravitation, field theory, elementary particles and nuclei, plasma, nonlinear phenomena, condensed matter, superconductivity, superfluidity, lasers, and surfaces.