Phonons of electronic crystals in two‐dimensional semiconductor moiré patterns

IF 2.6 Q2 MULTIDISCIPLINARY SCIENCES Natural sciences (Weinheim, Germany) Pub Date : 2022-12-19 DOI:10.1002/ntls.20220065
Hongyi Yu, Jiyong Zhou
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Abstract

We theoretically studied the phonon properties of the triangular-, stripe- and honeycomb-type electronic crystals recently found in two-dimensional semiconductor moir\'e patterns. By analyzing the phonon dispersions, we found the interaction induced lattice deformation in the zigzag-stripe crystal results in a much higher dynamical stability than in the linear-stripe crystal. Moreover, chiral phonons with finite magnetizations and large Berry curvatures can emerge in triangular and honeycomb crystals under time-reversal or inversion symmetry breaking. The small effective mass of the electrons allows the selective and efficient generation of chiral phonons from the optical activity of zone-center phonons combined with the anharmonicity, facilitating the realization of the phonon Hall effect. These findings point to an exciting new platform for exploring chiral phonons and the related topological phononic devices.

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二维半导体莫尔条纹中电子晶体的声子
我们从理论上研究了最近在二维半导体莫尔图中发现的三角形、条纹和蜂窝状电子晶体的声子性质。通过对声子色散的分析,我们发现在锯齿形条纹晶体中,相互作用引起的晶格变形比线性条纹晶体具有更高的动态稳定性。此外,在时间反转或逆对称性破缺的情况下,具有有限磁化强度和大贝里曲率的手性声子可以出现在三角形和蜂窝晶体中。电子的有效质量小,使得区中心声子的光学活性与非谐波性相结合,可以选择性地、高效地产生手性声子,有利于声子霍尔效应的实现。这些发现为探索手性声子和相关的拓扑声子器件提供了一个令人兴奋的新平台。
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