NMR study of pyrochlore lattice antiferromagnet, melanothallite Cu 2OCl2

Masahide Nishiyama; Akira Oyamada; Tetsuaki Itou; Satoru Maegawa; Hirotaka Okabe; Jun Akimitsu

doi:10.1088/1742-6596/320/1/012030

NMR study of pyrochlore lattice antiferromagnet, melanothallite Cu ₂OCl₂

Masahide Nishiyama, Akira Oyamada, Tetsuaki Itou, Satoru Maegawa, Hirotaka Okabe, Jun Akimitsu

研究成果: Conference article › 査読

7 被引用数 (Scopus)

抄録

The melanothallite Cu₂OCl₂ is a new example of pyrochlore-like antiferromagnet, which is composed of 3d transition metal electrons. We performed Cu- and Cl-NMR experiments on powder samples of Cu ₂OCl₂ below transition temperature T_N = 70 K and we observed six resonant peaks of Cu nuclei, which are composed of three symmetric peaks corresponding to ⁶³Cu and three corresponding to ⁶⁵Cu. The Cu nuclei feel the strong hyperfine fields because of ordered magnetic moments and the electric field gradients. We determined the spin structure by analyzing the Cu-NMR spectra. The melanothallite has an all-in-all-out spin structure. The spin lattice relaxation rates T ₁^-1 of Cu- and Cl-NMR in the ordered phase are proportional to the temperature; This suggests that although long-range ordering occurs at rather high temperature, the large spin fluctuations caused by the geometrical frustration still remain.

本文言語	English
論文番号	012030
ジャーナル	Journal of Physics: Conference Series
巻	320
DOI	https://doi.org/10.1088/1742-6596/320/1/012030
出版ステータス	Published - 2011
外部発表	はい
イベント	International Conference on Frustration in Condensed Matter, ICFCM - Sendai, Japan 継続期間: 2011 1月 11 → 2011 1月 14

ASJC Scopus subject areas

物理学および天文学（全般）

文献へのアクセス

10.1088/1742-6596/320/1/012030

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引用スタイル

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title = "NMR study of pyrochlore lattice antiferromagnet, melanothallite Cu 2OCl2",

abstract = "The melanothallite Cu2OCl2 is a new example of pyrochlore-like antiferromagnet, which is composed of 3d transition metal electrons. We performed Cu- and Cl-NMR experiments on powder samples of Cu 2OCl2 below transition temperature TN = 70 K and we observed six resonant peaks of Cu nuclei, which are composed of three symmetric peaks corresponding to 63Cu and three corresponding to 65Cu. The Cu nuclei feel the strong hyperfine fields because of ordered magnetic moments and the electric field gradients. We determined the spin structure by analyzing the Cu-NMR spectra. The melanothallite has an all-in-all-out spin structure. The spin lattice relaxation rates T 1-1 of Cu- and Cl-NMR in the ordered phase are proportional to the temperature; This suggests that although long-range ordering occurs at rather high temperature, the large spin fluctuations caused by the geometrical frustration still remain.",

author = "Masahide Nishiyama and Akira Oyamada and Tetsuaki Itou and Satoru Maegawa and Hirotaka Okabe and Jun Akimitsu",

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T1 - NMR study of pyrochlore lattice antiferromagnet, melanothallite Cu 2OCl2

AU - Nishiyama, Masahide

AU - Oyamada, Akira

AU - Itou, Tetsuaki

AU - Maegawa, Satoru

AU - Okabe, Hirotaka

AU - Akimitsu, Jun

PY - 2011

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N2 - The melanothallite Cu2OCl2 is a new example of pyrochlore-like antiferromagnet, which is composed of 3d transition metal electrons. We performed Cu- and Cl-NMR experiments on powder samples of Cu 2OCl2 below transition temperature TN = 70 K and we observed six resonant peaks of Cu nuclei, which are composed of three symmetric peaks corresponding to 63Cu and three corresponding to 65Cu. The Cu nuclei feel the strong hyperfine fields because of ordered magnetic moments and the electric field gradients. We determined the spin structure by analyzing the Cu-NMR spectra. The melanothallite has an all-in-all-out spin structure. The spin lattice relaxation rates T 1-1 of Cu- and Cl-NMR in the ordered phase are proportional to the temperature; This suggests that although long-range ordering occurs at rather high temperature, the large spin fluctuations caused by the geometrical frustration still remain.

AB - The melanothallite Cu2OCl2 is a new example of pyrochlore-like antiferromagnet, which is composed of 3d transition metal electrons. We performed Cu- and Cl-NMR experiments on powder samples of Cu 2OCl2 below transition temperature TN = 70 K and we observed six resonant peaks of Cu nuclei, which are composed of three symmetric peaks corresponding to 63Cu and three corresponding to 65Cu. The Cu nuclei feel the strong hyperfine fields because of ordered magnetic moments and the electric field gradients. We determined the spin structure by analyzing the Cu-NMR spectra. The melanothallite has an all-in-all-out spin structure. The spin lattice relaxation rates T 1-1 of Cu- and Cl-NMR in the ordered phase are proportional to the temperature; This suggests that although long-range ordering occurs at rather high temperature, the large spin fluctuations caused by the geometrical frustration still remain.

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