Weyl Fermion with various chiralities in a f-electron ferromagnetic system: PrB4

Abstract

Rare-earth tetraborides (RB4) have attracted a lot of recent attention due to their intriguing electronic, magnetic, and topological properties. We have theoretically investigated topological properties of PrB4, which is unique among RB4 family due to its ferromagnetic ground state. We have discovered that PrB4 is an intrinsic magnetic Weyl system possessing multiple topological band crossings with various chiral charges. Density-functional-theory band calculations combined with tight-binding band analysis reveal large Fermi-arc surface states, which are characteristic fingerprints of Weyl fermions. Anomalous Hall conductivity is estimated to be very large, ranging from 500 to 1000 ( ·cm)-1 near the Fermi level, which also demonstrates the topological Weyl character of ferromagnetic PrB4. These findings suggest that PrB4, being a potential candidate of magnetic Weyl system, would be a promising rare-earth topological system for applications to next-generation spintronic and photonic devices.