T. Pietrus scite author profile

We report on extensive elastic neutron scattering to determine the wave vector of the magnetic order in CeCu6−xAux single crystals for x > 0.1. For all values of x investigated (0.2, 0.3, 0.5, 1.0) we find long-range incommensurate antiferromagnetic order with an ordering vector Q ≈ (0.625 0 0.275) for x = 0.2, nearly unchanged for x = 0.3, and Q ≈ (0.59 0 0) for x = 0.5, staying roughly the same for x = 1.0. In addition, short-range correlations are observed at x = 0.2, reminiscent of those found previously for x = 0.1. The ordered magnetic moment is found to increase rapidly for small x, and more slowly for the larger x values. The increase of the specific-heat anomaly at the ordering temperature with x is in qualitative accord with this behavior. Finally, data of the electrical resistivity for current flow along the three crystallographic directions are presented, showing a clear signature of the magnetic order. A theoretical interpretation of the interplay of magnetic order and transport in terms of (i) the partial suppression of the Kondo effect by the staggered magnetization and (ii) the anisotropic band structure induced by the staggered field is shown to account well for the data, provided the ordering vector Q is close to 2kF , where kF is a typical Fermi momentum.PACS. 75.30.Mb Valence fluctuation, Kondo lattice, and heavy-fermion phenomena -75.25.+z Spin arrangements in magnetically ordered materials -72.15.Eb Electrical and thermal conduction in crystalline metals and alloys

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Temperature-dependent Fermi surface in CeBiPt

Goll¹,

Hagel²,

Löhneysen³

et al. 2002

Europhys. Lett.

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Shubnikov-de Haas (SdH) and Hall-effect measurements of CeBiPt and LaBiPt reveal the presence of very small Fermi surfaces with hole-like charge carriers for both semimetals. Reasonable agreement with band structure calculations is achieved when taking spin-orbit coupling into account and assuming localized Ce 4f electrons. For CeBiPt, we observe a strong temperature dependence of the SdH frequency, i.e., an increase from ∼ 35 T at 10 K to ∼ 60 T at 0.4 K, indicating a possible hybridization of the f electrons.

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

et al. 2001

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T. Pietrus

Non-Fermi-liquid behavior in a heavy-fermion alloy at a magnetic instability

Phase transitions and non-Fermi-liquid behavior inUCu5−xPdxat low temperatures

Magnetic order and transport in the heavy-fermion system CeCu Au

Temperature-dependent Fermi surface in CeBiPt

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

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