Detection and control of single proton spins in a thin layer of diamond grown by chemical vapor deposition

Kento Sasaki; Hideyuki Watanabe; Hitoshi Sumiya; Kohei M. Itoh; Eisuke Abe

doi:10.1063/5.0016196

Detection and control of single proton spins in a thin layer of diamond grown by chemical vapor deposition

Kento Sasaki, Hideyuki Watanabe, Hitoshi Sumiya, Kohei M. Itoh, Eisuke Abe

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7 Citations (Scopus)

Abstract

We report detection and coherent control of a single proton nuclear spin using an electronic spin of the nitrogen-vacancy (NV) center in diamond as a quantum sensor. In addition to determining the NV-proton hyperfine parameters by employing multipulse sequences, we polarize and coherently rotate the single proton spin and detect an induced free precession. Observation of free induction decays is an essential ingredient for high resolution proton nuclear magnetic resonance, and the present work extends it to the atomic scale. We also discuss the origin of the proton as incorporation during chemical vapor deposition growth, which provides an opportunity to use protons in diamond as built-in quantum memories coupled with the NV center.

Original language	English
Article number	0016196
Journal	Applied Physics Letters
Volume	117
Issue number	11
DOIs	https://doi.org/10.1063/5.0016196
Publication status	Published - 2020 Sept 14

ASJC Scopus subject areas

Physics and Astronomy (miscellaneous)

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10.1063/5.0016196

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title = "Detection and control of single proton spins in a thin layer of diamond grown by chemical vapor deposition",

abstract = "We report detection and coherent control of a single proton nuclear spin using an electronic spin of the nitrogen-vacancy (NV) center in diamond as a quantum sensor. In addition to determining the NV-proton hyperfine parameters by employing multipulse sequences, we polarize and coherently rotate the single proton spin and detect an induced free precession. Observation of free induction decays is an essential ingredient for high resolution proton nuclear magnetic resonance, and the present work extends it to the atomic scale. We also discuss the origin of the proton as incorporation during chemical vapor deposition growth, which provides an opportunity to use protons in diamond as built-in quantum memories coupled with the NV center.",

author = "Kento Sasaki and Hideyuki Watanabe and Hitoshi Sumiya and Itoh, {Kohei M.} and Eisuke Abe",

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T1 - Detection and control of single proton spins in a thin layer of diamond grown by chemical vapor deposition

AU - Sasaki, Kento

AU - Watanabe, Hideyuki

AU - Sumiya, Hitoshi

AU - Itoh, Kohei M.

AU - Abe, Eisuke

PY - 2020/9/14

Y1 - 2020/9/14

N2 - We report detection and coherent control of a single proton nuclear spin using an electronic spin of the nitrogen-vacancy (NV) center in diamond as a quantum sensor. In addition to determining the NV-proton hyperfine parameters by employing multipulse sequences, we polarize and coherently rotate the single proton spin and detect an induced free precession. Observation of free induction decays is an essential ingredient for high resolution proton nuclear magnetic resonance, and the present work extends it to the atomic scale. We also discuss the origin of the proton as incorporation during chemical vapor deposition growth, which provides an opportunity to use protons in diamond as built-in quantum memories coupled with the NV center.

AB - We report detection and coherent control of a single proton nuclear spin using an electronic spin of the nitrogen-vacancy (NV) center in diamond as a quantum sensor. In addition to determining the NV-proton hyperfine parameters by employing multipulse sequences, we polarize and coherently rotate the single proton spin and detect an induced free precession. Observation of free induction decays is an essential ingredient for high resolution proton nuclear magnetic resonance, and the present work extends it to the atomic scale. We also discuss the origin of the proton as incorporation during chemical vapor deposition growth, which provides an opportunity to use protons in diamond as built-in quantum memories coupled with the NV center.

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Detection and control of single proton spins in a thin layer of diamond grown by chemical vapor deposition

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