A study of Ni-substitution effects on heavy-fermion CeCu 2Si 2-Similarities between Ni substitution and high-pressure effects

Yoichi Ikeda; Shingo Araki; Tatsuo C. Kobayashi; Yusei Shimizu; Tatsuya Yanagisawa; Hiroshi Amitsuka

doi:10.1143/JPSJ.81.083701

A study of Ni-substitution effects on heavy-fermion CeCu ₂Si ₂-Similarities between Ni substitution and high-pressure effects

Yoichi Ikeda, Shingo Araki, Tatsuo C. Kobayashi, Yusei Shimizu, Tatsuya Yanagisawa, Hiroshi Amitsuka

Research output: Contribution to journal › Article › peer-review

7 Citations (Scopus)

Abstract

The effects of Ni substitution on Ce(Cu _1-xNi _x) ₂Si ₂ have been studied by specific heat and electrical resistivity measurements. The specific heat measurement has revealed that the enhanced quantum fluctuations around an antiferromagnetic quantum critical point are markedly suppressed by Ni substitution, and that the Fermi liquid state recovers in the Ni-rich region (x ≥ 0:12). The characteristic T-linear dependence of the resistivity has been observed at approximately x ̃ 0:10 together with a sign of superconductivity. The variation of n in the form of ρ - ρ0 = aT ⁿ against T ^max ₁ , at which the resistivity peaks, coincides with the case of high-pressure experiments on pure CeCu ₂Si ₂. The anomalous T-linear behavior appears to occur in the crossover region from the Kondo regime to the valence fluctuation regime rather than in the conventional antiferromagnetic quantum critical region.

Original language	English
Article number	083701
Journal	journal of the physical society of japan
Volume	81
Issue number	8
DOIs	https://doi.org/10.1143/JPSJ.81.083701
Publication status	Published - 2012 Aug
Externally published	Yes

Keywords

CeCu Si
Heavy fermion
Ni substitution
T-linear resistivity
Valence fluctuation

ASJC Scopus subject areas

Physics and Astronomy(all)

Access to Document

10.1143/JPSJ.81.083701

Cite this

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title = "A study of Ni-substitution effects on heavy-fermion CeCu 2Si 2-Similarities between Ni substitution and high-pressure effects",

abstract = "The effects of Ni substitution on Ce(Cu 1-xNi x) 2Si 2 have been studied by specific heat and electrical resistivity measurements. The specific heat measurement has revealed that the enhanced quantum fluctuations around an antiferromagnetic quantum critical point are markedly suppressed by Ni substitution, and that the Fermi liquid state recovers in the Ni-rich region (x ≥ 0:12). The characteristic T-linear dependence of the resistivity has been observed at approximately x{\~ } 0:10 together with a sign of superconductivity. The variation of n in the form of ρ - ρ0 = aT n against T max 1 , at which the resistivity peaks, coincides with the case of high-pressure experiments on pure CeCu 2Si 2. The anomalous T-linear behavior appears to occur in the crossover region from the Kondo regime to the valence fluctuation regime rather than in the conventional antiferromagnetic quantum critical region.",

keywords = "CeCu Si, Heavy fermion, Ni substitution, T-linear resistivity, Valence fluctuation",

author = "Yoichi Ikeda and Shingo Araki and Kobayashi, {Tatsuo C.} and Yusei Shimizu and Tatsuya Yanagisawa and Hiroshi Amitsuka",

year = "2012",

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doi = "10.1143/JPSJ.81.083701",

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T1 - A study of Ni-substitution effects on heavy-fermion CeCu 2Si 2-Similarities between Ni substitution and high-pressure effects

AU - Ikeda, Yoichi

AU - Araki, Shingo

AU - Kobayashi, Tatsuo C.

AU - Shimizu, Yusei

AU - Yanagisawa, Tatsuya

AU - Amitsuka, Hiroshi

PY - 2012/8

Y1 - 2012/8

N2 - The effects of Ni substitution on Ce(Cu 1-xNi x) 2Si 2 have been studied by specific heat and electrical resistivity measurements. The specific heat measurement has revealed that the enhanced quantum fluctuations around an antiferromagnetic quantum critical point are markedly suppressed by Ni substitution, and that the Fermi liquid state recovers in the Ni-rich region (x ≥ 0:12). The characteristic T-linear dependence of the resistivity has been observed at approximately x ̃ 0:10 together with a sign of superconductivity. The variation of n in the form of ρ - ρ0 = aT n against T max 1 , at which the resistivity peaks, coincides with the case of high-pressure experiments on pure CeCu 2Si 2. The anomalous T-linear behavior appears to occur in the crossover region from the Kondo regime to the valence fluctuation regime rather than in the conventional antiferromagnetic quantum critical region.

AB - The effects of Ni substitution on Ce(Cu 1-xNi x) 2Si 2 have been studied by specific heat and electrical resistivity measurements. The specific heat measurement has revealed that the enhanced quantum fluctuations around an antiferromagnetic quantum critical point are markedly suppressed by Ni substitution, and that the Fermi liquid state recovers in the Ni-rich region (x ≥ 0:12). The characteristic T-linear dependence of the resistivity has been observed at approximately x ̃ 0:10 together with a sign of superconductivity. The variation of n in the form of ρ - ρ0 = aT n against T max 1 , at which the resistivity peaks, coincides with the case of high-pressure experiments on pure CeCu 2Si 2. The anomalous T-linear behavior appears to occur in the crossover region from the Kondo regime to the valence fluctuation regime rather than in the conventional antiferromagnetic quantum critical region.

KW - CeCu Si

KW - Heavy fermion

KW - Ni substitution

KW - T-linear resistivity

KW - Valence fluctuation

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