\begin{document}$ {E}_{{\mathrm{S}}}\left(\boldsymbol{q}\right)={E}_{{\mathrm{N}}+{\mathrm{S}}}\left(\boldsymbol{q}\right)-{E}_{{\mathrm{N}}}\left(\boldsymbol{q}\right) $\end{document} for the contained Kitaev action is isolated by calculating the energy dispersion relation \begin{document}$ {E}_{{\mathrm{N}}}\left(\boldsymbol{q}\right) $\end{document} for the spin-spiral of monolayer CoI2 without SOC and the energy dispersion relation \begin{document}$ {E}_{{\mathrm{N}}+{\mathrm{S}}}\left(\boldsymbol{q}\right) $\end{document} considering SOC by using the generalized Bloch condition combined with the spin-spiral method. The parameters of the Heisenberg exchange interaction induced by the SOC are obtained by fitting the dispersion law of the \begin{document}$ {E}_{{\mathrm{S}}}\left(\boldsymbol{q}\right) $\end{document} to the Kitaev exchange interaction with the parameters of the Kitaev exchange interaction. The fitted curves obtained with the fitted parameters are in good agreement with the calculated values, indicating the accuracy of our calculations. Calculated fits show that the monolayer CoI2 is dominated by Heisenberg action, with the third nearest neighbour having the largest absolute value of J at –1.81 meV. In addition to this, there are strong Kitaev interactions in the monolayer CoI2, where Γ1 reaches 1.09 meV. We predict that the Kitaev interactions are universally applicable to transition metal triangular lattices with 1T structure. It is shown that the CoI2 can be used as an alternative material for Kitaev and lays a theoretical foundation for exploring Kitaev interactions in other 2D magnetic materials."> - 必威体育下载

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Citation:

    Zhu Kai, Huang Can, Cao Bang-Jie, Pan Yan-Fei, Fan Ji-Yu, Ma Chun-Lan, Zhu Yan
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    • Abstract views:1559
    • PDF Downloads:100
    • Cited By:0
    Publishing process
    • Received Date:31 May 2023
    • Accepted Date:08 August 2023
    • Available Online:15 September 2023
    • Published Online:20 December 2023

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