摘要
We examine quantum anomalous Hall(QAH)insulators with intrinsic magnetism displaying quantized Hall conductance at zero magnetic fields.The spin-momentum locking of the topological edge stats promises QAH insulators with great potential in device applications in the field of spintronics.Here,we generalize Haldane’s model on the honeycomb lattice to a more realistic two-orbital case without the artificial real-space complex hopping.Instead,we introduce an intraorbital coupling,stemming directly from the local spin-orbit coupling(SOC).Our dxy/dx2-y2 model may be viewed as a generalization of the bismuthene px/py-model for correlated d-orbitals.It promises a large SOC gap,featuring a high operating temperature.This two-orbital model nicely explains the low-energy excitation and the topology of two-dimensional ferromagnetic iron-halogenides.Furthermore,we find that electronic correlations can drive the QAH states to a c=0 phase,in which every band carries a nonzero Chern number.Our work not only provides a realistic QAH model,but also generalizes the nontrivial band topology to correlated orbitals,which demonstrates an exciting topological phase transition driven by Coulomb repulsions.Both the model and the material candidates provide excellent platforms for future study of the interplay between electronic correlations and nontrivial band topology.
作者
Qian Sui
Jiaxin Zhang
Suhua Jin
Yunyouyou Xia
Gang Li
眭茜;张嘉鑫;金粟华;夏云悠悠;李刚(School of Physical Science and Technology,ShanghaiTech University,Shanghai 200031,China;Institute for Advanced Study,Tsinghua University,Beijing 100084,China;ShanghaiTech Laboratory for Topological Physics,ShanghaiTech University,Shanghai 200031,China)
基金
Supported by the National Key R&D Program of China(Grant No.2017YFE0131300)
the Strategic Priority Research Program of Chinese Academy of Sciences(Grant No.XDA18010000)
the Starting Grant of Shanghai Tech University
the Program for Professor of Special Appointment(Shanghai Eastern Scholar)。
