无缝回放
Dirac(视频压缩格式)
物理
绝热过程
超材料
拓扑(电路)
相(物质)
几何相位
拓扑绝缘体
石墨烯
量子力学
经典力学
理论物理学
狄拉克方程
拓扑缺陷
凝聚态物理
维数(图论)
量具(枪械)
半金属
拓扑序
作者
Yue Shen,Linyun Yang,Zhi-Kang Lin,Kailun Wang,Xiang Li,Liang Li,Ying Wu,Jian-Hua Jiang
摘要
Elastic edge states, formed by interfacing different topological phases and appealing for various cutting-edge applications based on surface acoustic waves, often exhibit limits due to the lack of strong topological protection. Here, we overcome this difficulty by engineering a synthetic three-dimensional (3D) Dirac semimetal phase in a 2D elastic metamaterial. By tuning a geometry parameter, we drive topological transitions, which can be mapped into Dirac points in hybrid 3D, i.e., 2D plus a synthetic dimension. Gapless adiabatic spectral flows are found along the synthetic momentum loops when they encircle the Dirac points, emerging as the surface-arc states in hybrid 3D, that restores the bulk-edge correspondence in elastic systems. Experimental measurements confirm the bulk Dirac points, surface-arc states linking oppositely charged Dirac points, and the emergent gapless spectral flows. This Letter brings novel quantum-inspired phenomena to elastic systems and may inspire applications in topological control of mechanical waves and dynamics.
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