Correlation Induced Magnetic Topological Phases in Mixed-Valence Compound SmB6

SmB6 is a mixed-valence compound with flat f-electron bands that have a propensity to magnetism. Since the paramagnetic phase of SmB6 has a nontrivial Z2 topology, one may expect interesting band topologies for the magnetic phases too. Here we show that as the Sm valence increases with pressure, SmB6 undergoes a first-order phase transition into a metallic antiferromagnetic state, whose symmetry depends on the model parameters. The magnetic orderings give rise to distinct band topologies: while the A-type order leads to an overlap between valence and conduction bands in the form of Dirac nodal lines, the G-type order has a negative indirect gap with weak Z2 indices. We also investigate the spin polarized phase, which can be realized in a strong magnetic field, and find that it exhibits Weyl points as well as nodal lines close to the Fermi level. The magnetic phases show markedly different surface states and tunable bulk transport properties, with important implications for experiments.