CeAu2Bi: a new nonsymmorphic antiferromagnetic compound

Abstract

Here we report the structural and electronic properties of CeAu2Bi, a new heavy-fermion compound crystallizing in a nonsymmorphic hexagonal structure (P63/mmc). The Ce3+ ions form a triangular lattice which orders antiferromagnetically below TN = 3.1~K with a magnetic hard axis along the c-axis. Under applied pressure, TN increases linearly at a rate of 0.07~K/kbar, indicating that the Ce f-electrons are fairly localized. In fact, heat capacity measurements provide an estimate of 150(10) mJ/mol.K2 for the Sommerfeld coefficient. The crystal-field scheme obtained from our thermodynamic data points to a ground state with dominantly |jz=1/2 character, which commonly occurs in systems with a hard c-axis. Finally, electronic band structure calculations and symmetry analysis in k-space reveal that CeAu2Bi hosts symmetry-protected crossings at kz = π in the paramagnetic state