Development of a compact magnet for applying a highly uniform magnetic field to a diamond magnetic sensor by inverse problem analysis

At a Glance

Metadata	Details
Publication Date	2023-01-01
Journal	AIP Advances
Authors	Haruki Tanaka, Yuma Murata, S. Yabukami, Akihiro Kuwahata
Institutions	Tohoku University

Abstract

We propose a novel method based on the inverse problem approach to optimize the shape of a magnet generates high uniformity of magnetic fields in a magnetometer with diamond nitrogen-vacancy (NV) centers. Our original method can determine the combination of magnetic moments required to design a unique magnet shape. We obtained a unique shape of the small magnet (optimized model, 15 × 15 × 25 mm3 and 25 × 25 × 15 mm3) for integrated magnetometry system and improved the magnetic uniformity from 83.6% to 99.0% in the diamond NV centers area (X = −1-1 mm, Y = −1-1 mm, Z = 5-6 mm). The results indicate a highly sensitive magnetometer with a diamond NV center for future biomedical applications.

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Original Source

• DOI: https://doi.org/10.1063/9.0000475

References

1. 2020 - Magnetometer with nitrogen-vacancy center in a bulk diamond for detecting magnetic nanoparticles in biomedical applications [Crossref]
2. 2018 - Enrichment of ODMR-active nitrogen-vacancy centres in five-nanometre-sized detonation-synthesized nanodiamonds: Nanoprobes for temperature, angle and position [Crossref]
3. 2021 - Hyperfine interactions in the nv-13C quantum registers in diamond grown from the azaadamantane seed [Crossref]
4. 2019 - Compact integrated magnetometer based on nitrogen-vacancy centres in diamond [Crossref]
5. 2021 - Integrated and portable magnetometer based on nitrogen-vacancy ensembles in diamond
6. 2014 - Measuring the defect structure orientation of a single NV-centre in diamond [Crossref]
7. 2018 - Germanium-vacancy color center in diamond as a temperature sensor [Crossref]
8. 2008 - A simple, small and low cost permanent magnet design to produce homogeneous magnetic fields [Crossref]
9. 2017 - Optimization study on the magnetic field of superconducting Halbach array magnet [Crossref]

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