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Magnetic Order and Symmetry in the 2D Semiconductor CrSBr.

Kihong LeeAvalon H DismukesEvan J TelfordRen A WisconsJue WangXiaodong XuColin P NuckollsCory R DeanXavier RoyXiaoyang Zhu
Published in: Nano letters (2021)
The advent of two-dimensional (2D) magnets offers unprecedented control over electrons and spins. A key factor in determining exchange coupling and magnetic order is symmetry. Here, we apply second harmonic generation (SHG) to probe a 2D magnetic semiconductor CrSBr. We find that monolayers are ferromagnetically ordered below 146 K, an observation enabled by the discovery of a large magnetic dipole SHG effect in the centrosymmetric structure. In multilayers, the ferromagnetic monolayers are coupled antiferromagnetically, and in contrast to other 2D magnets, the Néel temperature of CrSBr increases with decreasing layer number. We identify magnetic dipole and magnetic toroidal moments as order parameters of the ferromagnetic monolayer and antiferromagnetic bilayer, respectively. These findings establish CrSBr as an exciting 2D magnetic semiconductor and extend the SHG probe of magnetic symmetry to the monolayer limit, opening the door to exploring the applications of magnetic-electronic coupling and the magnetic toroidal moment.
Keyphrases
  • molecularly imprinted
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  • magnetic resonance
  • small molecule
  • solid phase extraction
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  • contrast enhanced
  • single cell