Muon spin relaxation study of non-Fermi-liquid behavior near the ferromagnetic quantum critical point in CePd0.15 Rh0.85

D. T. Adroja, A. D. Hillier, J. G. Park, W. Kockelmann, K. A. McEwen, B. D. Rainford, Kwang Hyun Jang, C. Geibel, T. Takabatake

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27 Citations (Scopus)

Abstract

The low-energy spin dynamics near the ferromagnetic quantum critical point in CePd0.15 Rh0.85 have been investigated using zero-field (ZF) and longitudinal-field muon spin relaxation (μSR) measurements over a temperature range of 60 mK to 4 K and in applied fields up to 2500 G. The ZF- μSR measurements reveal a considerable slowing down of the spin fluctuations with decreasing temperatures below 2 K. There is no clear sign of either static long-range magnetic ordering or spin freezing down to 60 mK. The temperature dependence of the ZF-muon depolarization rate (λ) exhibits a power-law behavior, λ (T) ∼ T-n with n∼0.8, while the field dependence at 0.1 K reveals a time-field scaling of the muon relaxation function, Pz (t,H) = Pz (t/ Hγ) with γ∼1.0±0.1. Furthermore, the exponent derived from the ZF- μSR data agrees well with the power-law behavior of the temperature-dependent susceptibility, χ (T) ∼ T-α (α∼-0.6±0.1), the E/T scaling of the neutron dynamical susceptibility, as well as the magnetization-field-temperature scaling (γm ∼0.8±0.1), obtained from the same sample. The μSR results of CePd0.15 Rh0.85 are discussed in the context of systems exhibiting non-Fermi-liquid behavior.

Original languageEnglish
Article number014412
JournalPhysical Review B - Condensed Matter and Materials Physics
Volume78
Issue number1
DOIs
Publication statusPublished - 8 Jul 2008
Externally publishedYes

ASJC Scopus subject areas

  • Electronic, Optical and Magnetic Materials
  • Condensed Matter Physics

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