Dirac dispersion and non-trivial Berry's phase in new 3D semimetals

Following the discovery of topological insulators, new classes of topological materials such as Dirac semimetals, Weyl semimetals, nodal line and nodal chain semimetals, have received considerable interest. In Dirac systems, linearly dispersing valence and conduction bands touch at discrete points of four-fold degeneracy in the Brillouin zone, giving Dirac nodes protected against gap formation by crystal symmetry. Although there have extensive studies, the topological semimetals are still rare, making it imperative to explore more candidates and their physical properties. Here we will report the electronic structure analysis, transport properties and ARPES/quantum oscillation study of several new three-dimensional semimetals including RhSb3, VAl3, etc. These semimetals exhibit Dirac dispersion and non-trivial Berry’s phase, as well as extremely large magnetoresistance, which suggests them as 3D Dirac semimetal candidates.