Topological phase transitions and flat bands on an islamic lattice

We construct an islamic lattice by considering the nearest-neighbor (NN) hoppings with staggered magnetic fluxes and the next-NN hoppings. This model supports abundant quantum phases for various values of filling fractions. At 1 / 4 filling, Chern insulator (CI) phases with Chern numbers C = ± 1 ,  ...

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Bibliographic Details
Published in:Journal of physics. Condensed matter 2024-01, Vol.36 (3), p.35501
Main Authors: Yan, Xu-Hui, Qi, Lu, Zhang, Xiuyun, Liu, Yongjun, He, Ai-Lei
Format: Article
Language:English
Subjects:
Chern insulators
flat bands
fractional Chern insulator
topological phase transitions
zero-Chern-number topological insulator
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Summary:We construct an islamic lattice by considering the nearest-neighbor (NN) hoppings with staggered magnetic fluxes and the next-NN hoppings. This model supports abundant quantum phases for various values of filling fractions. At 1 / 4 filling, Chern insulator (CI) phases with Chern numbers C = ± 1 ,   − 2 and a zero-Chern-number topological insulator (ZCNTI) phase exist. At 3 / 8 filling, several CI phases with Chern numbers C = ± 1 ,   3 and the ZCNTI phase are obtained. For the filling fraction 3/4, CI phases with Chern numbers C = ± 1 ,   2 and two ZCNTI phase areas appear. Interestingly, these ZCNTI phases host both robust corner states and gapless edge states which can be characterized by the quantized polarization and quadrupole moment. We further find that staggered magnetic fluxes can give rise to the ZCNTI state at 1 / 4 and 3 / 4 fillings. Phase diagrams for filling fractions 1 / 8 , 1 / 2 , 5 / 8 and 7 / 8 are presented as well. In addition, flat bands are obtained for various filling fractions by tuning the hopping parameters. At 1/8 filling, a best topological flat band (TFB) with flatness ratio about 12 appears. Several trivial flat bands but with total Chern number | C | = 1 emerge in this model and exactly flat band is found at 3/8 filling. We further investigate ν = 1 / 2 fractional Chern insulate state when hard-core bosons fill into this TFB model.
ISSN:0953-8984
1361-648X
DOI:10.1088/1361-648X/acfeba