High-pressure study of a doped-type organic superconductor, κ-(BEDT-TTF) 4Hg 2.89Br 8

T. Okuhata; T. Nagai; H. Taniguchi; K. Satoh; T. Itou; Y. Shimizu; K. Miyagawa; Y. Ishii; N. Tajima; R. Kato

doi:10.1007/s10909-006-9162-3

High-pressure study of a doped-type organic superconductor, κ-(BEDT-TTF) ₄Hg _2.89Br ₈

T. Okuhata, T. Nagai, H. Taniguchi, K. Satoh, T. Itou, Y. Shimizu, K. Miyagawa, Y. Ishii, N. Tajima, R. Kato

研究成果: Article › 査読

抄録

Physical properties of the organic charge-transfer complex that may be regarded as a doping system are presented. We measured resistivity of an ambient-pressure superconductor, κ-(BEDT-TTF) ₄ Hg _2.89Br ₈, as functions of temperature, magnetic field, and pressure. Metallic and superconducting states of this salt are possibly attributable to the doping effect, which originates from incommensurability of Hg chain because band structure calculation predicts strong electron-electron correlation enough to localize the itinerant electrons. We uncovered anomalous pressure and magnetic field dependences of superconductivity as well as non-Fermi liquid behavior in the normal-state resistivity at low pressures. In addition, we observed a pressure-induced crossover to the Fermi liquid behavior, which is seen in non-doped κ-type salts at any pressures.

本文言語	English
ページ（範囲）	551-554
ページ数	4
ジャーナル	Journal of Low Temperature Physics
巻	142
号	3-4
DOI	https://doi.org/10.1007/s10909-006-9162-3
出版ステータス	Published - 2006 2月 1
外部発表	はい

ASJC Scopus subject areas

原子分子物理学および光学
材料科学（全般）
凝縮系物理学

文献へのアクセス

10.1007/s10909-006-9162-3

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title = "High-pressure study of a doped-type organic superconductor, κ-(BEDT-TTF) 4Hg 2.89Br 8 ",

abstract = "Physical properties of the organic charge-transfer complex that may be regarded as a doping system are presented. We measured resistivity of an ambient-pressure superconductor, κ-(BEDT-TTF) 4 Hg 2.89Br 8, as functions of temperature, magnetic field, and pressure. Metallic and superconducting states of this salt are possibly attributable to the doping effect, which originates from incommensurability of Hg chain because band structure calculation predicts strong electron-electron correlation enough to localize the itinerant electrons. We uncovered anomalous pressure and magnetic field dependences of superconductivity as well as non-Fermi liquid behavior in the normal-state resistivity at low pressures. In addition, we observed a pressure-induced crossover to the Fermi liquid behavior, which is seen in non-doped κ-type salts at any pressures.",

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T1 - High-pressure study of a doped-type organic superconductor, κ-(BEDT-TTF) 4Hg 2.89Br 8

AU - Okuhata, T.

AU - Nagai, T.

AU - Taniguchi, H.

AU - Satoh, K.

AU - Itou, T.

AU - Shimizu, Y.

AU - Miyagawa, K.

AU - Ishii, Y.

AU - Tajima, N.

AU - Kato, R.

PY - 2006/2/1

Y1 - 2006/2/1

N2 - Physical properties of the organic charge-transfer complex that may be regarded as a doping system are presented. We measured resistivity of an ambient-pressure superconductor, κ-(BEDT-TTF) 4 Hg 2.89Br 8, as functions of temperature, magnetic field, and pressure. Metallic and superconducting states of this salt are possibly attributable to the doping effect, which originates from incommensurability of Hg chain because band structure calculation predicts strong electron-electron correlation enough to localize the itinerant electrons. We uncovered anomalous pressure and magnetic field dependences of superconductivity as well as non-Fermi liquid behavior in the normal-state resistivity at low pressures. In addition, we observed a pressure-induced crossover to the Fermi liquid behavior, which is seen in non-doped κ-type salts at any pressures.

AB - Physical properties of the organic charge-transfer complex that may be regarded as a doping system are presented. We measured resistivity of an ambient-pressure superconductor, κ-(BEDT-TTF) 4 Hg 2.89Br 8, as functions of temperature, magnetic field, and pressure. Metallic and superconducting states of this salt are possibly attributable to the doping effect, which originates from incommensurability of Hg chain because band structure calculation predicts strong electron-electron correlation enough to localize the itinerant electrons. We uncovered anomalous pressure and magnetic field dependences of superconductivity as well as non-Fermi liquid behavior in the normal-state resistivity at low pressures. In addition, we observed a pressure-induced crossover to the Fermi liquid behavior, which is seen in non-doped κ-type salts at any pressures.

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