Observation of the linewidth broadening of single spins in diamond nanoparticles in aqueous fluid and its relation to the rotational Brownian motion

Masazumi Fujiwara; Yutaka Shikano; Ryuta Tsukahara; Shinichi Shikata; Hideki Hashimoto

doi:10.1038/s41598-018-33041-6

Observation of the linewidth broadening of single spins in diamond nanoparticles in aqueous fluid and its relation to the rotational Brownian motion

Masazumi Fujiwara, Yutaka Shikano, Ryuta Tsukahara, Shinichi Shikata, Hideki Hashimoto

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

8 Citations (Scopus)

Abstract

Capturing the fast rotational motion of single nanoparticles has been hindered owing to the difficulty of acquiring directional information under the optical diffraction limit. Here, we report the linewidth broadening of the electron spin resonance of single nitrogen vacancy (NV) centers that matches the rotational diffusion constant of the host nanodiamonds. When nanodiamonds are gradually detached from the substrates that they were fixed to, their optically detected spin resonance peaks are broadened by 1.8 MHz, which corresponds to the rotational diffusion constant of nanoparticles with a diameter of 11.4 nm from the Einstein–Smoluchowski relation.

Original language	English
Article number	14773
Journal	Scientific reports
Volume	8
Issue number	1
DOIs	https://doi.org/10.1038/s41598-018-33041-6
Publication status	Published - Dec 1 2018
Externally published	Yes

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title = "Observation of the linewidth broadening of single spins in diamond nanoparticles in aqueous fluid and its relation to the rotational Brownian motion",

abstract = "Capturing the fast rotational motion of single nanoparticles has been hindered owing to the difficulty of acquiring directional information under the optical diffraction limit. Here, we report the linewidth broadening of the electron spin resonance of single nitrogen vacancy (NV) centers that matches the rotational diffusion constant of the host nanodiamonds. When nanodiamonds are gradually detached from the substrates that they were fixed to, their optically detected spin resonance peaks are broadened by 1.8 MHz, which corresponds to the rotational diffusion constant of nanoparticles with a diameter of 11.4 nm from the Einstein–Smoluchowski relation.",

author = "Masazumi Fujiwara and Yutaka Shikano and Ryuta Tsukahara and Shinichi Shikata and Hideki Hashimoto",

note = "Funding Information: We thank Prof. Noboru Ohtani for the AFM measurements. Y.S. thank Dr. Gavin W. Morley for the discussion to measure the size of nanoparticles. M.F. acknowledges the financial supports from JSPS-KAKENHI (Nos 26706007, 26610077, 16K13646, and 17H02741), MEXT-LEADER program, and Osaka City University (OCU-Strategic Research Grant 2017 & 2018 for young researchers and top-priority research). Y.S. acknowledges the financial support from JST ERATO (Grant No. JPMJER1601). S.S. acknowledges the financial support from JSPS-KAKENHI (No. 26220602). H.H. thanks JSPS KAKENHI, Grant-in-Aids for Basic Research (B) (No. 16H04181) and Scientific Research on Innovative Areas “Innovations for Light-Energy Conversion (I4LEC)” (Nos 17H06433, 17H0637) for financial support. Publisher Copyright: {\textcopyright} 2018, The Author(s).",

year = "2018",

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doi = "10.1038/s41598-018-33041-6",

language = "English",

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AU - Fujiwara, Masazumi

AU - Shikano, Yutaka

AU - Tsukahara, Ryuta

AU - Shikata, Shinichi

AU - Hashimoto, Hideki

N1 - Funding Information: We thank Prof. Noboru Ohtani for the AFM measurements. Y.S. thank Dr. Gavin W. Morley for the discussion to measure the size of nanoparticles. M.F. acknowledges the financial supports from JSPS-KAKENHI (Nos 26706007, 26610077, 16K13646, and 17H02741), MEXT-LEADER program, and Osaka City University (OCU-Strategic Research Grant 2017 & 2018 for young researchers and top-priority research). Y.S. acknowledges the financial support from JST ERATO (Grant No. JPMJER1601). S.S. acknowledges the financial support from JSPS-KAKENHI (No. 26220602). H.H. thanks JSPS KAKENHI, Grant-in-Aids for Basic Research (B) (No. 16H04181) and Scientific Research on Innovative Areas “Innovations for Light-Energy Conversion (I4LEC)” (Nos 17H06433, 17H0637) for financial support. Publisher Copyright: © 2018, The Author(s).

PY - 2018/12/1

Y1 - 2018/12/1

N2 - Capturing the fast rotational motion of single nanoparticles has been hindered owing to the difficulty of acquiring directional information under the optical diffraction limit. Here, we report the linewidth broadening of the electron spin resonance of single nitrogen vacancy (NV) centers that matches the rotational diffusion constant of the host nanodiamonds. When nanodiamonds are gradually detached from the substrates that they were fixed to, their optically detected spin resonance peaks are broadened by 1.8 MHz, which corresponds to the rotational diffusion constant of nanoparticles with a diameter of 11.4 nm from the Einstein–Smoluchowski relation.

AB - Capturing the fast rotational motion of single nanoparticles has been hindered owing to the difficulty of acquiring directional information under the optical diffraction limit. Here, we report the linewidth broadening of the electron spin resonance of single nitrogen vacancy (NV) centers that matches the rotational diffusion constant of the host nanodiamonds. When nanodiamonds are gradually detached from the substrates that they were fixed to, their optically detected spin resonance peaks are broadened by 1.8 MHz, which corresponds to the rotational diffusion constant of nanoparticles with a diameter of 11.4 nm from the Einstein–Smoluchowski relation.

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Observation of the linewidth broadening of single spins in diamond nanoparticles in aqueous fluid and its relation to the rotational Brownian motion

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