Abstract
For topological materials with coexistence of Weyl nodes and nodal rings, the surface-state configuration and connection are unique yet have never been studied and discussed before. In this paper, we predict a ferromagnetic (FM) material, Cs2MoCl6, with coexistence of Weyl and nodering fermions in its spinful FM electronic band structure, which is unusual since FM materials are very rare in nature and node-ring band crossings will usually open a gap when spin-orbit coupling (SOC) is taken into consideration. We find that the surface states of Cs2MoCl6 show different properties along different directions, i.e, the surface states are in the drumhead shape showing the node-ring property on the (001) surface and in the helicoid shape showing the Weyl property on the (010) surface. Interestingly, both the drumhead surface states and the helicoid surface states will cross the projected points of the Weyl and nodal ring along different directions. In particular, helicoid surface states on the (010) surface will meet the nodal ring tangentially, with their shapes change abruptly as a function of the energy. We implement both first-principle calculation and an analytical model to understand the unique surface-state connection for systems with the coexistence of Weyl nodes and nodal rings (or nodal lines). This result is universal and irrespective of the presence/absence of and time-reversal symmetry (T).
Highlights
IntroductionTopological magnetic materials [1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17] have drawn much attention due to their exotic properties, e.g., topological axion insulator states [18,19,20], an intrinsic quantum anomalous Hall effect without external magnetic fields [6,7,9,11,12,13], and the display of magnetism, topology, spin dynamics, and quantum transport
Our results show that the connection pattern of the surface states is surface dependent for systems with both Weyl and nodal ring fermions, and it is universal for systems with or without considering spin-orbit coupling (SOC) and time-reversal (T ) symmetry
We propose a FM topological half metal Cs2MoCl6 with spin-polarized bulk bands and surface states near the Fermi level
Summary
Topological magnetic materials [1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17] have drawn much attention due to their exotic properties, e.g., topological axion insulator states [18,19,20], an intrinsic quantum anomalous Hall effect without external magnetic fields [6,7,9,11,12,13], and the display of magnetism, topology, spin dynamics, and quantum transport. In this Letter, we propose a “high-quality” ferromagnetic (FM) material Cs2MoCl6 [21] with space group F m3 ̄m that has both Weyl and nodal ring fermions in its spinful electronic band structure. Show that how the HSSs connect the projection of the nodal ring and the curvature of HSSs depends sensitively on the energy. Such a unique surface-state connection appears in several previous studies, yet lacks discussion [6,22,23,24,25]. We will choose the one with a magnetic moment
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