Metallic spin-liquid-like behavior of LiV2 O4

H. Okabe; M. Hiraishi; A. Koda; K. M. Kojima; S. Takeshita; I. Yamauchi; Y. Matsushita; Y. Kuramoto; R. Kadono

doi:10.1103/PhysRevB.99.041113

Metallic spin-liquid-like behavior of LiV2 O4

H. Okabe, M. Hiraishi, A. Koda, K. M. Kojima, S. Takeshita, I. Yamauchi, Y. Matsushita, Y. Kuramoto, R. Kadono

研究成果: Article › 査読

8 被引用数 (Scopus)

抄録

LiV2O4 spinel is known to exhibit heavy-fermion-like behavior below a characteristic temperature TK≃20 K, while it preserves a paramagnetic state down to T∼10-2 K due to geometrical frustration. Here, it is shown that the dynamical spin susceptibility χ(q,ω) in LiV2O4 exhibits an anomalous duality which is modeled as a sum of itinerant (χF) and local (χL) components, and that the local spin dynamics inferred from χL(q,ω) is qualitatively different from that expected from time-averaged bulk properties. The anomaly coexists with the marginal Fermi-liquid behavior inferred from the -lnT dependence of the electronic specific heat over a wide temperature range below TK. We argue that such unusual properties of LiV2O4 can be attributed to the putative metallic spin-liquid state emerging near the quantum critical point between spin-glass and Fermi-liquid states.

本文言語	English
論文番号	041113
ジャーナル	Physical Review B
巻	99
号	4
DOI	https://doi.org/10.1103/PhysRevB.99.041113
出版ステータス	Published - 2019 1月 17
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.99.041113

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abstract = "LiV2O4 spinel is known to exhibit heavy-fermion-like behavior below a characteristic temperature TK≃20 K, while it preserves a paramagnetic state down to T∼10-2 K due to geometrical frustration. Here, it is shown that the dynamical spin susceptibility χ(q,ω) in LiV2O4 exhibits an anomalous duality which is modeled as a sum of itinerant (χF) and local (χL) components, and that the local spin dynamics inferred from χL(q,ω) is qualitatively different from that expected from time-averaged bulk properties. The anomaly coexists with the marginal Fermi-liquid behavior inferred from the -lnT dependence of the electronic specific heat over a wide temperature range below TK. We argue that such unusual properties of LiV2O4 can be attributed to the putative metallic spin-liquid state emerging near the quantum critical point between spin-glass and Fermi-liquid states.",

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AU - Okabe, H.

AU - Hiraishi, M.

AU - Koda, A.

AU - Kojima, K. M.

AU - Takeshita, S.

AU - Yamauchi, I.

AU - Matsushita, Y.

AU - Kuramoto, Y.

AU - Kadono, R.

PY - 2019/1/17

Y1 - 2019/1/17

N2 - LiV2O4 spinel is known to exhibit heavy-fermion-like behavior below a characteristic temperature TK≃20 K, while it preserves a paramagnetic state down to T∼10-2 K due to geometrical frustration. Here, it is shown that the dynamical spin susceptibility χ(q,ω) in LiV2O4 exhibits an anomalous duality which is modeled as a sum of itinerant (χF) and local (χL) components, and that the local spin dynamics inferred from χL(q,ω) is qualitatively different from that expected from time-averaged bulk properties. The anomaly coexists with the marginal Fermi-liquid behavior inferred from the -lnT dependence of the electronic specific heat over a wide temperature range below TK. We argue that such unusual properties of LiV2O4 can be attributed to the putative metallic spin-liquid state emerging near the quantum critical point between spin-glass and Fermi-liquid states.

AB - LiV2O4 spinel is known to exhibit heavy-fermion-like behavior below a characteristic temperature TK≃20 K, while it preserves a paramagnetic state down to T∼10-2 K due to geometrical frustration. Here, it is shown that the dynamical spin susceptibility χ(q,ω) in LiV2O4 exhibits an anomalous duality which is modeled as a sum of itinerant (χF) and local (χL) components, and that the local spin dynamics inferred from χL(q,ω) is qualitatively different from that expected from time-averaged bulk properties. The anomaly coexists with the marginal Fermi-liquid behavior inferred from the -lnT dependence of the electronic specific heat over a wide temperature range below TK. We argue that such unusual properties of LiV2O4 can be attributed to the putative metallic spin-liquid state emerging near the quantum critical point between spin-glass and Fermi-liquid states.

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Metallic spin-liquid-like behavior of LiV2 O4

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