Kanami Kato scite author profile

We investigated the charge state stability and coherence properties of near-surface single nitrogen vacancy (NV) centers in 12 C-enriched diamond for potential use in nanoscale magnetic field sensing applications. The stability of charge states in negatively charged NV centers (NV % ) was evaluated using one of the pulsed optically detected magnetic resonance measurements, Rabi oscillation measurements. During the accumulation of Rabi oscillations, an unstable shallow NV % was converted to a neutral state. As a result, the contrast of Rabi oscillations degraded, depending on charge state stability. We stabilized the NV % state of very shallow NV centers (>2.6 + 1.1 nm from the surface) created by 1.2 keV nitrogen ion implantation by diamond surface modification, UV/ozone exposure, and oxygen annealing. This improvement indicates that we can suppress the upward surface band bending and surface potential fluctuations through Fermi level pinning originating from oxygen-terminated diamond surfaces.

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Nitrogen-Terminated Diamond Surface for Nanoscale NMR by Shallow Nitrogen-Vacancy Centers

Kawai

Yamano

Sonoda

et al. 2019

J. Phys. Chem. C

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The nitrogen-vacancy (NV) center in diamond is the most promising candidate for quantum sensing because of its beneficial properties. For quantum-sensing applications, a shallow NV center is critical for approximating the sensing target on a diamond surface. Such shallow NV centers are strongly affected by the diamond surface termination. The properties of shallow NV centers in hydrogen-, oxygen-, and fluorine-terminated diamond have been well studied. In recent years, silicon-terminated diamond has also been investigated; however, the effect of silicon-terminated diamond on the properties of shallow NV centers remains unclear. Recently, the suitability of nitrogen-terminated diamond for shallow NV centers has been theoretically and experimentally examined; however, quantum sensing has not yet been performed. In this work, we evaluated the effect of silicon and nitrogen termination on shallow NV centers. The negatively charged state of shallow NV centers was unstable below silicon termination. In contrast, the properties of shallow NV centers in nitrogen-terminated diamond were satisfactory for quantum sensing and enabled 1H NMR detection. Our results are in good agreement with previous reports on silicon and nitrogen terminations and provide the perspective that the stability of shallow NV centers highly depends on the polarity of electron affinity of the diamond surface.

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Effect of a radical exposure nitridation surface on the charge stability of shallow nitrogen-vacancy centers in diamond

Kageura

Kato

Yamano

et al. 2017

Appl. Phys. Express

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A nitridation process of a diamond surface with nitrogen radical exposure far from the radio-frequency plasma for the stabilization of a negatively charged nitrogen-vacancy (NV−) centers near the surface is presented. At a nitrogen coverage of as high as 0.9 monolayers, high average Rabi contrasts of 0.40 ± 0.06 and 0.46 ± 0.03 have been obtained for single NV− centers formed by shallow nitrogen implantation with acceleration voltages of 1 and 2 keV, respectively. This indicates that nitrogen termination by a radical exposure process produces an electric charge state suitable for single NV− centers near the surface compared with the states obtained for alternatively terminated surfaces.

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Properties of Shallow Nitrogen Vacancy Centers in Nitrogen Terminated Diamond and Detection of Nuclear Magnetic Resonance

Sonoda¹,

Kawai²,

Yamano³

et al. 2018

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Coherence Properties and Charge Stability of Shallow Implanted Nitrogen Vacancy Centers in <sup>12</sup>C enrichied Diamond

Yamano¹,

Kato²,

Kageura³

et al. 2016

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Kanami Kato

Charge state stabilization of shallow nitrogen vacancy centers in diamond by oxygen surface modification

Nitrogen-Terminated Diamond Surface for Nanoscale NMR by Shallow Nitrogen-Vacancy Centers

Effect of a radical exposure nitridation surface on the charge stability of shallow nitrogen-vacancy centers in diamond

Properties of Shallow Nitrogen Vacancy Centers in Nitrogen Terminated Diamond and Detection of Nuclear Magnetic Resonance

Coherence Properties and Charge Stability of Shallow Implanted Nitrogen Vacancy Centers in <sup>12</sup>C enrichied Diamond

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