Low-temperature antiferromagnetic order in orthorhombic CePdAl3

Abstract

We report the magnetization, ac susceptibility, and specific heat of optically float-zoned single crystals of CePdAl3. In comparison to the properties of polycrystalline CePdAl3 reported in the literature, which displays a tetragonal crystal structure and no long-range magnetic order, our single crystals exhibit an orthorhombic structure (Cmcm) and order antiferromagnetically below a N\'eel temperature T N = 5.6 K. The specific heat at zero-field shows a clear λ-type anomaly with a broad shoulder at T N. A conservative estimate of the Sommerfeld coefficient of the electronic specific heat, γ = 121~mJ~K-2~mol-1, indicates a moderately enhanced heavy-fermion ground state. A twin microstructure evolves in the family of planes spanned by the basal plane lattice vectors a o and c o, with the magnetic hard axis b o common to all twins. The antiferromagnetic state is characterized by a strong magnetic anisotropy and a spin-flop transition induced under magnetic field along the easy direction, resulting in a complex magnetic phase diagram. Taken together our results reveal a high sensitivity of the magnetic and electronic properties of CePdAl3 to its structural modifications.