Local optical detection of nitrogen concentration in diamond by double electron-electron resonance
ORAL
Abstract
Magnetic impurities in diamond influence the relaxation properties [1] and thus affect the sensitivity of magnetic, electric, strain, and temperature sensors based on nitrogen-vacancy color centers. Diamond samples may exhibit significant spatial variations in the impurity concentrations hindering quantitative analysis of relaxation pathways. Here we present a local-measurement technique which may be used to determine the concentration of different species of defects by utilizing double electron-electron resonance [2]. This method will help to improve the understanding of the underlying physics and will guide the development of diamond samples, as well as offering protocols for optimized sensing.
[1]V. Stepanov and S. Takahashi, Physical Review B 94, 024421 (2016)
[2]A. Jarmola, V. Acosta, K. Jensen, S. Chemerisov, and D. Budker, Physical Review Letters 108, 197601 (2012).
[1]V. Stepanov and S. Takahashi, Physical Review B 94, 024421 (2016)
[2]A. Jarmola, V. Acosta, K. Jensen, S. Chemerisov, and D. Budker, Physical Review Letters 108, 197601 (2012).
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Presenters
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Tomoyuki Niki
Nagoya University
Authors
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Tomoyuki Niki
Nagoya University
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Shang Li
Nagoya University
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Viktor Stepanov
University of Southern California
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Zaili Peng
Department of Chemistry, Univ of Southern California, University of Southern California
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Andrey Jarmola
ODMR Technologies Inc., University of California
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Yasuhiro Shimizu
Nagoya Univ, Nagoya University
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Susumu Takahashi
Department of Chemistry, Department of Physics & Astronomy, Univ of Southern California, University of Southern California, Chemistry and Physics & Astronomy Department, University of Southern California, Chemistry and Physics & Astronomy, University of Southern California
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Dmitry Budker
Department of Atomic Physics, University of California, University of California