Microscopic evidence for evolution of superconductivity by effective carrier doping in boron-doped diamond: B11 -NMR study

H. Mukuda; T. Tsuchida; A. Harada; Y. Kitaoka; T. Takenouchi; Y. Takano; M. Nagao; I. Sakaguchi; T. Oguchi; H. Kawarada

doi:10.1103/PhysRevB.75.033301

Microscopic evidence for evolution of superconductivity by effective carrier doping in boron-doped diamond: B11 -NMR study

H. Mukuda^*, T. Tsuchida, A. Harada, Y. Kitaoka, T. Takenouchi, Y. Takano, M. Nagao, I. Sakaguchi, T. Oguchi, H. Kawarada

^*この研究の対応する著者

基幹理工学部

研究成果: Article › 査読

13 被引用数 (Scopus)

抄録

We have investigated the superconductivity discovered in boron-doped diamonds by means of B11 -NMR on heteroepitaxially grown (111) and (100) films. B11 -NMR spectra for all of the films are identified to arise from the substitutional B(1) site as single occupation and lower symmetric B(2) site substituted as boron+hydrogen (B+H) complex, respectively. Clear evidence is presented that the effective carriers introduced by B(1) substitution are responsible for the superconductivity, whereas the charge neutral B(2) sites does not offer the carriers effectively. The result is also corroborated by the density of states deduced by 1 T1 T measurement, indicating that the evolution of superconductivity is driven by the effective carrier introduced by substitution at B(1) site.

本文言語	English
論文番号	033301
ジャーナル	Physical Review B - Condensed Matter and Materials Physics
巻	75
号	3
DOI	https://doi.org/10.1103/PhysRevB.75.033301
出版ステータス	Published - 2007

ASJC Scopus subject areas

電子材料、光学材料、および磁性材料
凝縮系物理学

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Mukuda, H., Tsuchida, T., Harada, A., Kitaoka, Y., Takenouchi, T., Takano, Y., Nagao, M., Sakaguchi, I., Oguchi, T., & Kawarada, H. (2007). Microscopic evidence for evolution of superconductivity by effective carrier doping in boron-doped diamond: B11 -NMR study. Physical Review B - Condensed Matter and Materials Physics, 75(3), [033301]. https://doi.org/10.1103/PhysRevB.75.033301

Mukuda, H, Tsuchida, T, Harada, A, Kitaoka, Y, Takenouchi, T, Takano, Y, Nagao, M, Sakaguchi, I, Oguchi, T & Kawarada, H 2007, 'Microscopic evidence for evolution of superconductivity by effective carrier doping in boron-doped diamond: B11 -NMR study', Physical Review B - Condensed Matter and Materials Physics, vol. 75, no. 3, 033301. https://doi.org/10.1103/PhysRevB.75.033301

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abstract = "We have investigated the superconductivity discovered in boron-doped diamonds by means of B11 -NMR on heteroepitaxially grown (111) and (100) films. B11 -NMR spectra for all of the films are identified to arise from the substitutional B(1) site as single occupation and lower symmetric B(2) site substituted as boron+hydrogen (B+H) complex, respectively. Clear evidence is presented that the effective carriers introduced by B(1) substitution are responsible for the superconductivity, whereas the charge neutral B(2) sites does not offer the carriers effectively. The result is also corroborated by the density of states deduced by 1 T1 T measurement, indicating that the evolution of superconductivity is driven by the effective carrier introduced by substitution at B(1) site.",

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T1 - Microscopic evidence for evolution of superconductivity by effective carrier doping in boron-doped diamond

T2 - B11 -NMR study

AU - Mukuda, H.

AU - Tsuchida, T.

AU - Harada, A.

AU - Kitaoka, Y.

AU - Takenouchi, T.

AU - Takano, Y.

AU - Nagao, M.

AU - Sakaguchi, I.

AU - Oguchi, T.

AU - Kawarada, H.

PY - 2007

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AB - We have investigated the superconductivity discovered in boron-doped diamonds by means of B11 -NMR on heteroepitaxially grown (111) and (100) films. B11 -NMR spectra for all of the films are identified to arise from the substitutional B(1) site as single occupation and lower symmetric B(2) site substituted as boron+hydrogen (B+H) complex, respectively. Clear evidence is presented that the effective carriers introduced by B(1) substitution are responsible for the superconductivity, whereas the charge neutral B(2) sites does not offer the carriers effectively. The result is also corroborated by the density of states deduced by 1 T1 T measurement, indicating that the evolution of superconductivity is driven by the effective carrier introduced by substitution at B(1) site.

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Microscopic evidence for evolution of superconductivity by effective carrier doping in boron-doped diamond: B11 -NMR study

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