Photonic band properties of the moiré Kagome lattice

Inspired by the emerging field of twistronics, moiré photonic structures have attracted great interest. In this paper, we introduce the concept of the moiré Kagome lattice (MKL), which arises from the overlapping of a Kagome lattice at a commensurable angle of 38.211°. MKL exhibits a significantly b...

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Published inJournal of applied physics Vol. 135; no. 8
Main Authors Fu, Yikai, Zhang, Yu, Dai, Haitao, Gao, Meini, Hao, Xichen, Arain, Samia, Ahmad, Aneela, Wang, Yuhan, Li, Jia, Mohamed, Zolkefl A. Y., Chen, Zhenda, Cao, Yaxian, Wang, Ruotong, Yao, Buyi, Lu, Qieni, Liu, Changlong, Liu, Ying, Feng, Shouzhong
Format Journal Article
LanguageEnglish
Published Melville American Institute of Physics 28.02.2024
Subjects
Electromagnetic interactions
Kagome lattice
Lattice parameters
Photonic band gaps
Photonic crystals
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Summary:Inspired by the emerging field of twistronics, moiré photonic structures have attracted great interest. In this paper, we introduce the concept of the moiré Kagome lattice (MKL), which arises from the overlapping of a Kagome lattice at a commensurable angle of 38.211°. MKL exhibits a significantly broader main photonic bandgap (PBG) when compared to the traditional Kagome lattice. Through numerical simulations, we delved into the adjustable properties of the PBG of MKL by varying lattice parameters, including filling factors and materials. Meanwhile, we also observed the presence of photonic flatbands within the MKL structure. Specifically, the emergence of a super flat isolated flatband aids in achieving single-mode omnidirectional lasers and enhancing the omnidirectional electromagnetic interaction of materials, thereby expanding the applications of moiré photonic crystals.
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ISSN:0021-8979
1089-7550
DOI:10.1063/5.0190395