Weyl nodes in CeRu$_4$Sn$_6$ studied by dynamical mean-field theory

The heavy fermion compound CeRu$_4$Sn$_6$ has recently shown to exhibit a spontaneous nonlinear Hall effect, indicating its topological nature. This is consistent with the lack of inversion symmetry that allows for the existence of Weyl nodes. Here, we employ density functional theory plus dynamical mean-field theory, which is state-of-the-art for such correlated materials, and study the topology of CeRu$_4$Sn$_6$. We find five inequivalent Weyl nodes of either type I or II, each having sixteen symmetry-related replicas. These Weyl nodes bridge the Kondo insulating gap, which is a direct but not an indirect gap. The closest Weyl points is only 0.5meV below the Fermi energy, and has a flat energy-momentum dispersion