Modulated magnetism and anomalous electronic transport in Ce3Cu4As4O2

Abstract

The complex magnetism and transport properties of tetragonal Ce3Cu4As4O2 were examined through neutron scattering and physical properties measurements on polycrystalline samples. The lamellar structure consists of alternating layers of CeCu4As4 with a single square Ce lattice and oxygen-linked Ce bi-layer Ce2O2. Extending along c, a tube-like Fermi surface from DFT calculations points to a quasi-two-dimensional electronic system. Peaks in the specific heat at the Ne\'el temperature TN=24 K, T2~=~16 K and T3~=~1.9 K indicate three magnetic phase transitions or distinct cross-over phenomena. For T<TN neutron diffraction indicates the development of ferromagnetic ab sheets for both Ce sites, with alternating polarization along c, a wave vector k1= c*. For T<T2, quasi-two-dimensional low-energy spin fluctuations with k2=12 a* and polarized perpendicular to k2 are suppressed. The data are consistent with quasi-two-dimensional antiferromagnetic order in the CeCu4As4 planes polarized along the k2 wave vector. T3 marks a spin-flop transition where the k1 staggered magnetization switches to in-plane polarization. While the narrow 4f bands lie deep below the Fermi surface, there are significant transport anomalies associated with the transitions; in particular a substantial reduction in resistivity for T<TN. At T=100 mK the k1 modulated staggered moment is 0.85~μB, which matches the 0.8~μB saturation magnetization achieved for H ~=~7 T at T~=~2 K. From low T Lorentzian fits the correlation length is in excess of 75 . We argue the unusual sequence of magnetic transitions results from competing interactions and anisotropies for the two Ce sites.