Investigation of surface magnetic noise by shallow spins in diamond

T. Rosskopf; A. Dussaux; K. Ohashi; M. Loretz; R. Schirhagl; H. Watanabe; S. Shikata; K. M. Itoh; C. L. Degen

doi:10.1103/PhysRevLett.112.147602

Investigation of surface magnetic noise by shallow spins in diamond

T. Rosskopf, A. Dussaux, K. Ohashi, M. Loretz, R. Schirhagl, H. Watanabe, S. Shikata, K. M. Itoh, C. L. Degen

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Abstract

We present measurements of spin relaxation times (T1, T1ρ, T2) on very shallow (5nm) nitrogen-vacancy centers in high-purity diamond single crystals. We find a reduction of spin relaxation times up to 30 times compared to bulk values, indicating the presence of ubiquitous magnetic impurities associated with the surface. Our measurements yield a density of 0.01-0.1μB/nm2 and a characteristic correlation time of 0.28(3) ns of surface states, with little variation between samples and chemical surface terminations. A low temperature measurement further confirms that fluctuations are thermally activated. The data support the atomistic picture where impurities are associated with the top carbon layers, and not with terminating surface atoms or adsorbate molecules. The low spin density implies that the presence of a single surface impurity is sufficient to cause spin relaxation of a shallow nitrogen-vacancy center.

Original language	English
Article number	147602
Journal	Physical review letters
Volume	112
Issue number	14
DOIs	https://doi.org/10.1103/PhysRevLett.112.147602
Publication status	Published - 2014 Apr 9

ASJC Scopus subject areas

Physics and Astronomy(all)

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10.1103/PhysRevLett.112.147602

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title = "Investigation of surface magnetic noise by shallow spins in diamond",

abstract = "We present measurements of spin relaxation times (T1, T1ρ, T2) on very shallow (5nm) nitrogen-vacancy centers in high-purity diamond single crystals. We find a reduction of spin relaxation times up to 30 times compared to bulk values, indicating the presence of ubiquitous magnetic impurities associated with the surface. Our measurements yield a density of 0.01-0.1μB/nm2 and a characteristic correlation time of 0.28(3) ns of surface states, with little variation between samples and chemical surface terminations. A low temperature measurement further confirms that fluctuations are thermally activated. The data support the atomistic picture where impurities are associated with the top carbon layers, and not with terminating surface atoms or adsorbate molecules. The low spin density implies that the presence of a single surface impurity is sufficient to cause spin relaxation of a shallow nitrogen-vacancy center.",

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T1 - Investigation of surface magnetic noise by shallow spins in diamond

AU - Rosskopf, T.

AU - Dussaux, A.

AU - Ohashi, K.

AU - Loretz, M.

AU - Schirhagl, R.

AU - Watanabe, H.

AU - Shikata, S.

AU - Itoh, K. M.

AU - Degen, C. L.

PY - 2014/4/9

Y1 - 2014/4/9

N2 - We present measurements of spin relaxation times (T1, T1ρ, T2) on very shallow (5nm) nitrogen-vacancy centers in high-purity diamond single crystals. We find a reduction of spin relaxation times up to 30 times compared to bulk values, indicating the presence of ubiquitous magnetic impurities associated with the surface. Our measurements yield a density of 0.01-0.1μB/nm2 and a characteristic correlation time of 0.28(3) ns of surface states, with little variation between samples and chemical surface terminations. A low temperature measurement further confirms that fluctuations are thermally activated. The data support the atomistic picture where impurities are associated with the top carbon layers, and not with terminating surface atoms or adsorbate molecules. The low spin density implies that the presence of a single surface impurity is sufficient to cause spin relaxation of a shallow nitrogen-vacancy center.

AB - We present measurements of spin relaxation times (T1, T1ρ, T2) on very shallow (5nm) nitrogen-vacancy centers in high-purity diamond single crystals. We find a reduction of spin relaxation times up to 30 times compared to bulk values, indicating the presence of ubiquitous magnetic impurities associated with the surface. Our measurements yield a density of 0.01-0.1μB/nm2 and a characteristic correlation time of 0.28(3) ns of surface states, with little variation between samples and chemical surface terminations. A low temperature measurement further confirms that fluctuations are thermally activated. The data support the atomistic picture where impurities are associated with the top carbon layers, and not with terminating surface atoms or adsorbate molecules. The low spin density implies that the presence of a single surface impurity is sufficient to cause spin relaxation of a shallow nitrogen-vacancy center.

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Investigation of surface magnetic noise by shallow spins in diamond

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