Zn-neighbor Cu NQR in Zn-substituted (formula presented) and (formula presented)

Y. Itoh; T. Machi; C. Kasai; S. Adachi; N. Watanabe; N. Koshizuka; M. Murakami

doi:10.1103/PhysRevB.67.064516

Zn-neighbor Cu NQR in Zn-substituted (formula presented) and (formula presented)

Y. Itoh, T. Machi, C. Kasai, S. Adachi, N. Watanabe, N. Koshizuka, M. Murakami

研究成果: Article › 査読

1 被引用数 (Scopus)

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We studied local electronic states near Zn in optimally doped (formula presented) and underdoped (formula presented) via satellite signals of plane-site Cu(2) nuclear quadrupole resonance (NQR) spectra. From the relative intensity of Cu NQR spectra, the satellite signals are assigned to Zn-neighbor Cu NQR lines. The Cu nuclear spin-lattice relaxation time of the satellite signal is shorter than that of the main signal, which indicates that the magnetic correlation is locally enhanced near Zn both for the underdoped and the optimally doped systems. The pure (formula presented) is a stoichiometric, homogenous, underdoped electronic system; nevertheless, the Zn-induced inhomogeneous magnetic response in the (formula presented) plane is more marked than that of the optimally doped (formula presented)

本文言語	English
ジャーナル	Physical Review B - Condensed Matter and Materials Physics
巻	67
号	6
DOI	https://doi.org/10.1103/PhysRevB.67.064516
出版ステータス	Published - 2003 2月 28
外部発表	はい

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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10.1103/PhysRevB.67.064516

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abstract = "We studied local electronic states near Zn in optimally doped (formula presented) and underdoped (formula presented) via satellite signals of plane-site Cu(2) nuclear quadrupole resonance (NQR) spectra. From the relative intensity of Cu NQR spectra, the satellite signals are assigned to Zn-neighbor Cu NQR lines. The Cu nuclear spin-lattice relaxation time of the satellite signal is shorter than that of the main signal, which indicates that the magnetic correlation is locally enhanced near Zn both for the underdoped and the optimally doped systems. The pure (formula presented) is a stoichiometric, homogenous, underdoped electronic system; nevertheless, the Zn-induced inhomogeneous magnetic response in the (formula presented) plane is more marked than that of the optimally doped (formula presented)",

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T1 - Zn-neighbor Cu NQR in Zn-substituted (formula presented) and (formula presented)

AU - Itoh, Y.

AU - Machi, T.

AU - Kasai, C.

AU - Adachi, S.

AU - Watanabe, N.

AU - Koshizuka, N.

AU - Murakami, M.

PY - 2003/2/28

Y1 - 2003/2/28

N2 - We studied local electronic states near Zn in optimally doped (formula presented) and underdoped (formula presented) via satellite signals of plane-site Cu(2) nuclear quadrupole resonance (NQR) spectra. From the relative intensity of Cu NQR spectra, the satellite signals are assigned to Zn-neighbor Cu NQR lines. The Cu nuclear spin-lattice relaxation time of the satellite signal is shorter than that of the main signal, which indicates that the magnetic correlation is locally enhanced near Zn both for the underdoped and the optimally doped systems. The pure (formula presented) is a stoichiometric, homogenous, underdoped electronic system; nevertheless, the Zn-induced inhomogeneous magnetic response in the (formula presented) plane is more marked than that of the optimally doped (formula presented)

AB - We studied local electronic states near Zn in optimally doped (formula presented) and underdoped (formula presented) via satellite signals of plane-site Cu(2) nuclear quadrupole resonance (NQR) spectra. From the relative intensity of Cu NQR spectra, the satellite signals are assigned to Zn-neighbor Cu NQR lines. The Cu nuclear spin-lattice relaxation time of the satellite signal is shorter than that of the main signal, which indicates that the magnetic correlation is locally enhanced near Zn both for the underdoped and the optimally doped systems. The pure (formula presented) is a stoichiometric, homogenous, underdoped electronic system; nevertheless, the Zn-induced inhomogeneous magnetic response in the (formula presented) plane is more marked than that of the optimally doped (formula presented)

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Zn-neighbor Cu NQR in Zn-substituted (formula presented) and (formula presented)

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