三维山谷对比音

Haoran Xue, Yong Ge, Zheyu Cheng, Yi-jun Guan, Jiaojiao Zhu, Hong-yu Zou, Shou-qi Yuan, Shengyuan A. Yang, Hong-xiang Sun, Yidong Chong, Baile Zhang
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引用次数: 0

摘要

自旋和谷是晶体中电子的两个基本特性。几十年前在石墨烯等二维(2D)材料中建立的山谷对比物理学很好地理解了它们之间的相似性--由于反转对称性被打破,石墨烯中的两个山谷表现出相反的轨道磁矩,类似于电子的自旋-1/2 行为,而相反的浆果曲率则导致了一半的拓扑电荷。然而,人们从未在三维晶体中探索过山谷对比物理学。在此,我们开发了一种三维声学晶体,展示了三维谷对比物理学。从根本上说,谷是二元的,但在三维晶体中,谷可以有六种不同的值,每种值都在一个不同的方向上携带一个涡旋。拓扑谷传输从二维材料的边缘态推广到三维材料的表面态,其有趣的特征包括稳健传播、拓扑折射和谷腔定位。我们的研究结果为三维空间的波操纵开辟了一条新途径。
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Three-dimensional valley-contrasting sound
Spin and valley are two fundamental properties of electrons in crystals. The similarity between them is well understood in valley-contrasting physics established decades ago in two-dimensional (2D) materials like graphene--with broken inversion symmetry, the two valleys in graphene exhibit opposite orbital magnetic moments, similar to the spin-1/2 behaviors of electrons, and opposite Berry curvature that leads to a half topological charge. However, valley-contrasting physics has never been explored in 3D crystals. Here, we develop a 3D acoustic crystal exhibiting 3D valley-contrasting physics. Unlike spin that is fundamentally binary, valley in 3D can take six different values, each carrying a vortex in a distinct direction. The topological valley transport is generalized from the edge states of 2D materials to the surface states of 3D materials, with interesting features including robust propagation, topological refraction, and valley-cavity localization. Our results open a new route for wave manipulation in 3D space.
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