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Sub-nanotesla sensitivity at the nanoscale with a single spin

Zhiyuan Zhao, Xiangyu Ye, Shaoyi Xu, Pei Yu, Zhiping Yang, Xi Kong, Ya Wang, Tianyu Xie, Fazhan Shi, Jiangfeng Du

2023National Science Review26 citationsDOIOpen Access PDF

Abstract

High-sensitivity detection of the microscopic magnetic field is essential in many fields. Good sensitivity and high spatial resolution are mutually contradictory in measurement, which is quantified by the energy resolution limit. Here we report that a sensitivity of 0.5 nT/[Formula: see text] at the nanoscale is achieved experimentally by using nitrogen-vacancy defects in diamond with depths of tens of nanometers. The achieved sensitivity is substantially enhanced by integrating with multiple quantum techniques, including real-time-feedback initialization, dynamical decoupling with shaped pulses and repetitive readout via quantum logic. Our magnetic sensors will shed new light on searching new physics beyond the standard model, investigating microscopic magnetic phenomena in condensed matters, and detection of life activities at the sub-cellular scale.

Topics & Concepts

Dynamical decouplingSensitivity (control systems)Magnetic fieldPhysicsNanoscopic scaleQuantum sensorSpin (aerodynamics)Decoupling (probability)Condensed matter physicsQuantumNanometreResolution (logic)DiamondNanotechnologyMaterials scienceOpticsQuantum technologyQuantum mechanicsQubitOpen quantum systemComputer scienceEngineeringThermodynamicsElectronic engineeringControl engineeringArtificial intelligenceComposite materialDiamond and Carbon-based Materials ResearchAtomic and Subatomic Physics ResearchElectronic and Structural Properties of Oxides
Sub-nanotesla sensitivity at the nanoscale with a single spin | Litcius