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Scanning gradiometry with a single spin quantum magnetometer

W. S. Huxter, M. L. Palm, M. L. Davis, P. Welter, C.-H. Lambert, M. Trassin and C. L. Degen ()
Additional contact information
W. S. Huxter: ETH Zurich
M. L. Palm: ETH Zurich
M. L. Davis: ETH Zurich
P. Welter: ETH Zurich
C.-H. Lambert: ETH Zurich
M. Trassin: ETH Zurich
C. L. Degen: ETH Zurich

Nature Communications, 2022, vol. 13, issue 1, 1-9

Abstract: Abstract Quantum sensors based on spin defects in diamond have recently enabled detailed imaging of nanoscale magnetic patterns, such as chiral spin textures, two-dimensional ferromagnets, or superconducting vortices, based on a measurement of the static magnetic stray field. Here, we demonstrate a gradiometry technique that significantly enhances the measurement sensitivity of such static fields, leading to new opportunities in the imaging of weakly magnetic systems. Our method relies on the mechanical oscillation of a single nitrogen-vacancy center at the tip of a scanning diamond probe, which up-converts the local spatial gradients into ac magnetic fields enabling the use of sensitive ac quantum protocols. We show that gradiometry provides important advantages over static field imaging: (i) an order-of-magnitude better sensitivity, (ii) a more localized and sharper image, and (iii) a strong suppression of field drifts. We demonstrate the capabilities of gradiometry by imaging the nanotesla fields appearing above topographic defects and atomic steps in an antiferromagnet, direct currents in a graphene device, and para- and diamagnetic metals.

Date: 2022
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DOI: 10.1038/s41467-022-31454-6

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