Quantum Critical Behavior in a Concentrated Ternary Solid Solution

Brian C. Sales; Ke Jin; Hongbin Bei; G. Malcolm Stocks; German D. Samolyuk; Andrew F. May; Michael A. McGuire

doi:10.1038/srep26179

Quantum Critical Behavior in a Concentrated Ternary Solid Solution

Brian C. Sales^*, Ke Jin, Hongbin Bei, G. Malcolm Stocks, German D. Samolyuk, Andrew F. May, Michael A. McGuire

^*Corresponding author for this work

Oak Ridge National Laboratory

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

50 Citations (Scopus)

Abstract

The face centered cubic (fcc) alloy NiCoCr_x with x ≈ 1 is found to be close to the Cr concentration where the ferromagnetic transition temperature, T_c, goes to 0. Near this composition these alloys exhibit a resistivity linear in temperature to 2 K, a linear magnetoresistance, an excess-TlnT (or power law) contribution to the low temperature heat capacity, and excess low temperature entropy. All of the low temperature electrical, magnetic and thermodynamic properties of the alloys with compositions near x ≈ 1 are not typical of a Fermi liquid and suggest strong magnetic fluctuations associated with a quantum critical region. The limit of extreme chemical disorder in this simple fcc material thus provides a novel and unique platform to study quantum critical behavior in a highly tunable system.

Original language	English
Article number	26179
Journal	Scientific Reports
Volume	6
DOIs	https://doi.org/10.1038/srep26179
Publication status	Published - 18 May 2016
Externally published	Yes

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title = "Quantum Critical Behavior in a Concentrated Ternary Solid Solution",

abstract = "The face centered cubic (fcc) alloy NiCoCrx with x ≈ 1 is found to be close to the Cr concentration where the ferromagnetic transition temperature, Tc, goes to 0. Near this composition these alloys exhibit a resistivity linear in temperature to 2 K, a linear magnetoresistance, an excess-TlnT (or power law) contribution to the low temperature heat capacity, and excess low temperature entropy. All of the low temperature electrical, magnetic and thermodynamic properties of the alloys with compositions near x ≈ 1 are not typical of a Fermi liquid and suggest strong magnetic fluctuations associated with a quantum critical region. The limit of extreme chemical disorder in this simple fcc material thus provides a novel and unique platform to study quantum critical behavior in a highly tunable system.",

author = "Sales, {Brian C.} and Ke Jin and Hongbin Bei and Stocks, {G. Malcolm} and Samolyuk, {German D.} and May, {Andrew F.} and McGuire, {Michael A.}",

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AU - Sales, Brian C.

AU - Jin, Ke

AU - Bei, Hongbin

AU - Stocks, G. Malcolm

AU - Samolyuk, German D.

AU - May, Andrew F.

AU - McGuire, Michael A.

PY - 2016/5/18

Y1 - 2016/5/18

N2 - The face centered cubic (fcc) alloy NiCoCrx with x ≈ 1 is found to be close to the Cr concentration where the ferromagnetic transition temperature, Tc, goes to 0. Near this composition these alloys exhibit a resistivity linear in temperature to 2 K, a linear magnetoresistance, an excess-TlnT (or power law) contribution to the low temperature heat capacity, and excess low temperature entropy. All of the low temperature electrical, magnetic and thermodynamic properties of the alloys with compositions near x ≈ 1 are not typical of a Fermi liquid and suggest strong magnetic fluctuations associated with a quantum critical region. The limit of extreme chemical disorder in this simple fcc material thus provides a novel and unique platform to study quantum critical behavior in a highly tunable system.

AB - The face centered cubic (fcc) alloy NiCoCrx with x ≈ 1 is found to be close to the Cr concentration where the ferromagnetic transition temperature, Tc, goes to 0. Near this composition these alloys exhibit a resistivity linear in temperature to 2 K, a linear magnetoresistance, an excess-TlnT (or power law) contribution to the low temperature heat capacity, and excess low temperature entropy. All of the low temperature electrical, magnetic and thermodynamic properties of the alloys with compositions near x ≈ 1 are not typical of a Fermi liquid and suggest strong magnetic fluctuations associated with a quantum critical region. The limit of extreme chemical disorder in this simple fcc material thus provides a novel and unique platform to study quantum critical behavior in a highly tunable system.

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Quantum Critical Behavior in a Concentrated Ternary Solid Solution

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