Pressure versus magnetic-field tuning of a magnetic quantum phase transition

The low temperature properties of CeCu6−xAux show different behavior at the quantum phase transition depending on how the long-range antiferromagnetic order is suppressed. Tuning by hydrostatic pressure p results in a temperature dependence of the specific heat C(T) and the electrical resistivity ρ(...

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Bibliographic Details
Published in:Physica. B, Condensed matter Condensed matter, 2002-03, Vol.312-313, p.458-460
Main Authors: Stockert, O, Huster, F, Neubert, A, Pfleiderer, C, Pietrus, T, Will, B, Löhneysen, H.v
Format: Article
Language:English
Subjects:
Heavy-fermion systems
Quantum phase transition
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Summary:The low temperature properties of CeCu6−xAux show different behavior at the quantum phase transition depending on how the long-range antiferromagnetic order is suppressed. Tuning by hydrostatic pressure p results in a temperature dependence of the specific heat C(T) and the electrical resistivity ρ(T) as C/T=aln(T0/T) and ρ≈ρ0+A′T, while C/T=γ0−a′T0.5 and ρ≈ρ0+A″T1.5 when tuned by applying a magnetic field B. The magnetic (p,T) and (B,T) phase diagrams as inferred from specific heat, electrical resistivity and neutron diffraction measurements are distinctly different. These findings suggest that the spectra of the low-lying magnetic fluctuations near these quantum phase transitions differ.
ISSN:0921-4526
1873-2135
DOI:10.1016/S0921-4526(01)01142-5