NMR and μ-SR study on competing Heisenberg chain Cs2Cu2Mo3O12

T. Goto; A. Yagi; K. Matsui; I. Watanabe; T. Sasaki; M. Hase

doi:10.1088/1742-6596/828/1/012017

NMR and μ-SR study on competing Heisenberg chain Cs₂Cu₂Mo₃O₁₂

T. Goto, A. Yagi, K. Matsui, I. Watanabe, T. Sasaki, M. Hase

金属材料研究所

研究成果: Conference article › 査読

3 被引用数 (Scopus)

抄録

S = 1/2 quasi one dimensional Heisenberg chain Cs₂Cu₂Mo₃O₁₂ has two dominant exchange interactions of the nearest-neig hbouring ferromagnetic J₁ = -93 K and the second nearest-neighbouring antiferromagnetic J₂ = +33 K. These competing interactions on the spin chain are expected to bring rich physics, such as frustration or nematic Tomonaga-Luttinger liquid (TL) phase. In order to investigate its ground state at zero and finite fields, we have performed ¹³³Cs-NMR experiments under the wide range of magnetic field up to 14 T, and μ-SR at zero field. In low-field region, the existence of long range magnetic order was demonstrated below 2 K. In the higher field region between 7 T and the saturation field H_s = 9.15 T, no evidence for magnetic order was confirmed at finite temperatures.

本文言語	English
論文番号	012017
ジャーナル	Journal of Physics: Conference Series
巻	828
号	1
DOI	https://doi.org/10.1088/1742-6596/828/1/012017
出版ステータス	Published - 2017 4月 20
イベント	8th International Conference on Highly Frustrated Magnetism 2016, HFM 2016 - Taipei, Taiwan, Province of China 継続期間: 2016 9月 7 → 2016 9月 11

ASJC Scopus subject areas

物理学および天文学（全般）

文献へのアクセス

10.1088/1742-6596/828/1/012017

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引用スタイル

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title = "NMR and μ-SR study on competing Heisenberg chain Cs2Cu2Mo3O12",

abstract = "S = 1/2 quasi one dimensional Heisenberg chain Cs2Cu2Mo3O12 has two dominant exchange interactions of the nearest-neig hbouring ferromagnetic J1 = -93 K and the second nearest-neighbouring antiferromagnetic J2 = +33 K. These competing interactions on the spin chain are expected to bring rich physics, such as frustration or nematic Tomonaga-Luttinger liquid (TL) phase. In order to investigate its ground state at zero and finite fields, we have performed 133Cs-NMR experiments under the wide range of magnetic field up to 14 T, and μ-SR at zero field. In low-field region, the existence of long range magnetic order was demonstrated below 2 K. In the higher field region between 7 T and the saturation field Hs = 9.15 T, no evidence for magnetic order was confirmed at finite temperatures.",

author = "T. Goto and A. Yagi and K. Matsui and I. Watanabe and T. Sasaki and M. Hase",

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T1 - NMR and μ-SR study on competing Heisenberg chain Cs2Cu2Mo3O12

AU - Goto, T.

AU - Yagi, A.

AU - Matsui, K.

AU - Watanabe, I.

AU - Sasaki, T.

AU - Hase, M.

N1 - Publisher Copyright: © Published under licence by IOP Publishing Ltd.

PY - 2017/4/20

Y1 - 2017/4/20

N2 - S = 1/2 quasi one dimensional Heisenberg chain Cs2Cu2Mo3O12 has two dominant exchange interactions of the nearest-neig hbouring ferromagnetic J1 = -93 K and the second nearest-neighbouring antiferromagnetic J2 = +33 K. These competing interactions on the spin chain are expected to bring rich physics, such as frustration or nematic Tomonaga-Luttinger liquid (TL) phase. In order to investigate its ground state at zero and finite fields, we have performed 133Cs-NMR experiments under the wide range of magnetic field up to 14 T, and μ-SR at zero field. In low-field region, the existence of long range magnetic order was demonstrated below 2 K. In the higher field region between 7 T and the saturation field Hs = 9.15 T, no evidence for magnetic order was confirmed at finite temperatures.

AB - S = 1/2 quasi one dimensional Heisenberg chain Cs2Cu2Mo3O12 has two dominant exchange interactions of the nearest-neig hbouring ferromagnetic J1 = -93 K and the second nearest-neighbouring antiferromagnetic J2 = +33 K. These competing interactions on the spin chain are expected to bring rich physics, such as frustration or nematic Tomonaga-Luttinger liquid (TL) phase. In order to investigate its ground state at zero and finite fields, we have performed 133Cs-NMR experiments under the wide range of magnetic field up to 14 T, and μ-SR at zero field. In low-field region, the existence of long range magnetic order was demonstrated below 2 K. In the higher field region between 7 T and the saturation field Hs = 9.15 T, no evidence for magnetic order was confirmed at finite temperatures.

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