\begin{document}$ {C}_{2x} $\end{document} symmetry in twisted double bilayer graphene (TDBG) can be broken by an electric displacement field, leading the lowest conduction and valence band near charge neutrality to obtain a finite Chern number. The topological properties of the band and the symmetry breaking driven by the strong interaction make it possible to realize and regulate the old insulation state at low magnetic fields. Hence Chern insulator may emerge from this topological non-trivial flat band under strong electron interaction. Here, we observe Chern insulator state with Chern number 4 at filling factor \begin{document}$ \nu =1 $\end{document} under a small magnetic field on twisted double bilayer graphene with twist angle 1.48°. Moreover, the longitudinal resistance shows a peak under a parallel magnetic field and increases with temperature or field rising, which is similar to the Pomeranchuk effect in 3He. This phenomenon indicates that Chern insulator at \begin{document}$ \nu =1 $\end{document} may originate from isospin polarization."> Isospin polarized Chern insulator state of <em>C</em> = 4 in twisted double bilayer graphene - 必威体育下载

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Liu Yi-Jun, Chen Yi-Wei, Zhu Yu-Jian, Huang Yan, An Dong-Dong, Li Qing-Xin, Gan Qi-Kang, Zhu Wang, Song Jun-Wei, Wang Kai-Yuan, Wei Ling-Nan, Zong Qi-Jun, Liu Shuo-Han, Li Shi-Wei, Liu Zhi, Zhang Qi, Xu Ying-Hai, Cao Xin-Yu, Yang Ao, Wang Hao-Lin, Yang Bing, Andy Shen, Yu Ge-Liang, Wang Lei
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  • Abstract views:3597
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  • Received Date:31 March 2023
  • Accepted Date:09 May 2023
  • Available Online:20 June 2023
  • Published Online:20 July 2023

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