Negatively charged nitrogen-vacancy centers in a 5 nm Thin 12C diamond film

K. Ohashi; T. Rosskopf; H. Watanabe; M. Loretz; Y. Tao; R. Hauert; S. Tomizawa; T. Ishikawa; J. Ishi-Hayase; S. Shikata; C. L. Degen; K. M. Itoh

doi:10.1021/nl402286v

Negatively charged nitrogen-vacancy centers in a 5 nm Thin ¹²C diamond film

K. Ohashi, T. Rosskopf, H. Watanabe, M. Loretz, Y. Tao, R. Hauert, S. Tomizawa, T. Ishikawa, J. Ishi-Hayase, S. Shikata, C. L. Degen, K. M. Itoh

Department of Applied Physics and Physico-Informatics

Research output: Contribution to journal › Article › peer-review

116 Citations (Scopus)

Abstract

We report successful introduction of negatively charged nitrogen-vacancy (NV^-) centers in a 5 nm thin, isotopically enriched ([¹²C] = 99.99%) diamond layer by CVD. The present method allows for the formation of NV^- in such a thin layer even when the surface is terminated by hydrogen atoms. NV^- centers are found to have spin coherence times of between T₂ ∼ 10-100 μs at room temperature. Changing the surface termination to oxygen or fluorine leads to a slight increase in the NV^- density, but not to any significant change in T₂. The minimum detectable magnetic field estimated by this T₂ is 3 nT after 100 s of averaging, which would be sufficient for the detection of nuclear magnetic fields exerted by a single proton. We demonstrate the suitability for nanoscale NMR by measuring the fluctuating field from ∼10⁴ proton nuclei placed on top of the 5 nm diamond film.

Original language	English
Pages (from-to)	4733-4738
Number of pages	6
Journal	Nano Letters
Volume	13
Issue number	10
DOIs	https://doi.org/10.1021/nl402286v
Publication status	Published - 2013 Oct 9

Keywords

Diamond
chemical vapor deposition
isotope engineering
magnetometry
nitrogen-vacancy center

ASJC Scopus subject areas

Bioengineering
Chemistry(all)
Materials Science(all)
Condensed Matter Physics
Mechanical Engineering

Access to Document

10.1021/nl402286v

Cite this

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title = "Negatively charged nitrogen-vacancy centers in a 5 nm Thin 12C diamond film",

abstract = "We report successful introduction of negatively charged nitrogen-vacancy (NV-) centers in a 5 nm thin, isotopically enriched ([12C] = 99.99%) diamond layer by CVD. The present method allows for the formation of NV- in such a thin layer even when the surface is terminated by hydrogen atoms. NV- centers are found to have spin coherence times of between T2 ∼ 10-100 μs at room temperature. Changing the surface termination to oxygen or fluorine leads to a slight increase in the NV- density, but not to any significant change in T2. The minimum detectable magnetic field estimated by this T2 is 3 nT after 100 s of averaging, which would be sufficient for the detection of nuclear magnetic fields exerted by a single proton. We demonstrate the suitability for nanoscale NMR by measuring the fluctuating field from ∼104 proton nuclei placed on top of the 5 nm diamond film.",

keywords = "Diamond, chemical vapor deposition, isotope engineering, magnetometry, nitrogen-vacancy center",

author = "K. Ohashi and T. Rosskopf and H. Watanabe and M. Loretz and Y. Tao and R. Hauert and S. Tomizawa and T. Ishikawa and J. Ishi-Hayase and S. Shikata and Degen, {C. L.} and Itoh, {K. M.}",

year = "2013",

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doi = "10.1021/nl402286v",

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T1 - Negatively charged nitrogen-vacancy centers in a 5 nm Thin 12C diamond film

AU - Ohashi, K.

AU - Rosskopf, T.

AU - Watanabe, H.

AU - Loretz, M.

AU - Tao, Y.

AU - Hauert, R.

AU - Tomizawa, S.

AU - Ishikawa, T.

AU - Ishi-Hayase, J.

AU - Shikata, S.

AU - Degen, C. L.

AU - Itoh, K. M.

PY - 2013/10/9

Y1 - 2013/10/9

N2 - We report successful introduction of negatively charged nitrogen-vacancy (NV-) centers in a 5 nm thin, isotopically enriched ([12C] = 99.99%) diamond layer by CVD. The present method allows for the formation of NV- in such a thin layer even when the surface is terminated by hydrogen atoms. NV- centers are found to have spin coherence times of between T2 ∼ 10-100 μs at room temperature. Changing the surface termination to oxygen or fluorine leads to a slight increase in the NV- density, but not to any significant change in T2. The minimum detectable magnetic field estimated by this T2 is 3 nT after 100 s of averaging, which would be sufficient for the detection of nuclear magnetic fields exerted by a single proton. We demonstrate the suitability for nanoscale NMR by measuring the fluctuating field from ∼104 proton nuclei placed on top of the 5 nm diamond film.

AB - We report successful introduction of negatively charged nitrogen-vacancy (NV-) centers in a 5 nm thin, isotopically enriched ([12C] = 99.99%) diamond layer by CVD. The present method allows for the formation of NV- in such a thin layer even when the surface is terminated by hydrogen atoms. NV- centers are found to have spin coherence times of between T2 ∼ 10-100 μs at room temperature. Changing the surface termination to oxygen or fluorine leads to a slight increase in the NV- density, but not to any significant change in T2. The minimum detectable magnetic field estimated by this T2 is 3 nT after 100 s of averaging, which would be sufficient for the detection of nuclear magnetic fields exerted by a single proton. We demonstrate the suitability for nanoscale NMR by measuring the fluctuating field from ∼104 proton nuclei placed on top of the 5 nm diamond film.

KW - Diamond

KW - chemical vapor deposition

KW - isotope engineering

KW - magnetometry

KW - nitrogen-vacancy center

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