Coherent rotation of a single spin via adiabatic half passage in the presence of a ferromagnetic vortex

IF 5.6 2区 物理与天体物理 Q1 PHYSICS, MULTIDISCIPLINARY Quantum Science and Technology Pub Date : 2023-01-23 DOI:10.1088/2058-9565/acb56b
R. Badea, M. Wolf, J. Berezovsky
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Abstract

We experimentally and numerically study possible implementations for π/2 rotations of a single nitrogen-vacancy defect spin state in proximity to a magnetic vortex core. Dynamically controlled magnetic vortex cores have been suggested as a means to provide nanoscale, rapidly-tunable magnetic fields for spin qubit addressability and control. However, driven and thermal non-equilibrium dynamics of the vortex core complicate prospects for high-fidelity gate operations. We find that the complicated profile of the driven vortex core fringe field leads to significant, but unpredictable enhancement of both Zeeman splitting and Rabi frequency. Furthermore, the gyrotropic dynamics of the vortex core lead to a complicated evolution of the spin state. We demonstrate that the fidelity of π/2 rotations can be improved using an adiabatic passage protocol in which the vortex provides an enhancement of spin splitting and Rabi frequency while unwanted vortex dynamics are suppressed.
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在铁磁涡旋存在下,通过绝热半通道的单自旋的相干旋转
我们通过实验和数值研究了在磁涡核附近单个氮空位缺陷自旋态的π/2旋转的可能实现。动态控制磁涡旋核被认为是一种提供纳米级、快速可调磁场的方法,用于自旋量子比特的寻址和控制。然而,涡旋核心的驱动和热非平衡动力学使高保真栅极操作的前景复杂化。研究发现,涡核边缘场的复杂轮廓导致了塞曼分裂和拉比频率的显著增强,但这种增强是不可预测的。此外,涡旋核的回旋动力学导致了自旋态的复杂演化。我们证明了使用绝热通道协议可以提高π/2旋转的保真度,其中涡旋提供了自旋分裂和拉比频率的增强,同时抑制了不必要的涡旋动力学。
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来源期刊
Quantum Science and Technology
Quantum Science and Technology Materials Science-Materials Science (miscellaneous)
CiteScore
11.20
自引率
3.00%
发文量
133
期刊介绍: Driven by advances in technology and experimental capability, the last decade has seen the emergence of quantum technology: a new praxis for controlling the quantum world. It is now possible to engineer complex, multi-component systems that merge the once distinct fields of quantum optics and condensed matter physics. Quantum Science and Technology is a new multidisciplinary, electronic-only journal, devoted to publishing research of the highest quality and impact covering theoretical and experimental advances in the fundamental science and application of all quantum-enabled technologies.
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