| Popis: |
Altermagnetism exhibits zero net magnetization and spin-splitting electronic structure. The interplay between altermagnetism and topological physics becomes an important topic in the condensed matter physics. In this letter, we propose that the altermagnets Ce4X3 (X = As, Sb, Bi) hosts Dirac fermions in their electronic structure through first-principles calculations and tight-binding model analysis. When subjected to external magnetic field, the altermagnets Ce4X3 (X = As, Sb, Bi) change from altermagnetic state to ferromagnetic state. Accompanied with magnetic order transition, the four-fold degenerate Dirac points is transited into sixtuple degenerate points. Especially, spin-orbital coupling effect has little influence about the Dirac fermions. The topological phases in the altermagnetic state hold the exotic spin-splitter torque and remarkable nonlinear transport effect. Our work paves the way for exploring the interplay between altermagnetism and non-trivial topological phase. |
