Physical properties of RCo2Al8 (R= La, Ce, Pr, Nd and Sm) single crystals: An emerging structure-type for anisotropic Kondo lattice studies

Abstract

Systematic investigations of rare-earth (R) based intermetallic materials are a leading strategy to reveal the underlying mechanisms governing a range of physical phenomena, such as the formation of a Kondo lattice and competing electronic and magnetic anisotropies. In this work, the magnetic, thermal and transport properties of RCo2Al8 (R= La, Ce, Pr, Nd and Sm) single crystals are presented. LaCo2Al8 is characterized as a Pauli paramagnet and transport measurements, with the current along and perpendicular to the orthorhombic c-axis (c and ab, respectively), reveal a clear electronic anisotropy, with ab ≈(4-7)c at 300 K. We show that CeCo2Al8 is a Kondo-lattice for which the Kondo coherence temperature TK*, deduced from broad maximums in c and ab at ≈ 68 and 46 K, respectively, is also anisotropic. This finding is related to a possible underlying anisotropy of the Kondo coupling in CeCo2Al8. The Pr- and Nd-based materials present strong easy-axis anisotropy (c-axis) and antiferromagnetic (AFM) orders below T=4.84 K and T=8.1 K, respectively. Metamagnetic transitions from this AFM to a spin-polarized paramagnetic phase state are investigated by isothermal magnetization measurements. The Sm-based compound is also an easy-axis AFM with a transition at T=21.6 K.