Electric field induced giant valley polarization in two dimensional ferromagnetic WSe2/CrSnSe3 heterostructure
Imran Khan, Brahim Marfoua, Jisang Hong
Abstract
Abstract Valleytronics is receiving extensive research efforts. Thus, we investigated the electric field-induced valley polarization in the WSe 2 /CrSnSe 3 heterostructures by varying the stacking order. The heterostructure shows indirect band gaps of 270 and 330 meV in the two most stable structures. The WSe 2 /CrSnSe 3 heterostructure displays a ferromagnetic ground state with out-of-plane anisotropy (0.02 meV) in one stable stacking (S-1) while a small in-plane anisotropy (−0.01 meV) is found in other stacking (S-2). The Curie temperature is slightly enhanced to 73 K compared to the monolayer CrSnSe 3 . We have found the valley splitting of 4 meV in S-1 whereas it became 9 meV in the S-2 system. The valley splitting is further enhanced if an electric field is applied from CrSnSe 3 to the WSe 2 layer whereas it is suppressed in the reversed electric field. Particularly, the S-2 structure shows a giant valley splitting of 67 meV at an electric field of 0.6 V Å −1 . We attribute this electric field-dependency to the dipolar effect. Overall, we propose that the WSe 2 /CrSnSe 3 heterostructure can be a potential structure for obtaining a giant valley splitting.