The nitrogen-vacancy (NV) defect center in diamond has demonstrated great capability for nanoscale magnetic sensing and imaging for both static and periodically modulated target fields. However, it remains a challenge to detect and image randomly fluctuating magnetic fields. Recent theoretical and numerical works have outlined detection schemes that exploit changes in decoherence of the detector spin as a sensitive measure for fluctuating fields. Here we experimentally monitor the decoherence of a scanning NV center in order to image the fluctuating magnetic fields from paramagnetic impurities on an underlying diamond surface. We detect a signal corresponding to roughly 800 μB in 2?s of integration time, without any control on the target spins, and obtain magnetic-field spectral information using dynamical decoupling techniques. The extracted spatial and temporal properties of the surface paramagnetic impurities provide insight to prolonging the coherence of near-surface qubits for quantum information and metrology applications.
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机译:金刚石中的氮空位(NV)缺陷中心已显示出对静态和周期性调制目标场进行纳米级磁感测和成像的强大能力。然而,检测和成像随机波动的磁场仍然是一个挑战。最近的理论和数值工作概述了利用检测器自旋退相干变化的检测方案,将其作为波动场的敏感度量。在这里,我们通过实验监控扫描NV中心的退相干,以成像来自下方金刚石表面上顺磁性杂质的波动磁场。我们在2 s的积分时间内检测到对应于大约800μs B 的信号,无需对目标自旋进行任何控制,并使用动态去耦技术获得了磁场频谱信息。提取的表面顺磁性杂质的时空特性为延长量子信息和计量学应用的近表面量子位的相干性提供了见识。
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