Synthesis and physical properties of Ce2Rh3+δSb4 single crystals

Abstract

Millimeter-sized Ce2Rh3+δSb4 (δ≈ 1/8) single crystals were synthesized by a Bi-flux method and their physical properties were studied by a combination of electrical transport, magnetic and thermodynamic measurements. The resistivity anisotropy a,b/c2, manifesting a quasi-one-dimensional electronic character. Magnetic susceptibility measurements confirm ab as the magnetic easy plane. A long-range antiferromagnetic transition occurs at TN=1.4 K, while clear short-range ordering can be detected well above TN. The low ordering temperature is ascribed to the large Ce-Ce distance as well as the geometric frustration. Kondo scale is estimated to be about 2.4 K, comparable to the strength of magnetic exchange. Ce2Rh3+δSb4, therefore, represents a rare example of dense Kondo lattice whose Ruderman-Kittel-Kasuya-Yosida exchange and Kondo coupling are both weak but competing.