Litcius/Paper detail

Experimental demonstration of acoustic semimetal with topologically charged nodal surface

Meng Xiao, Liping Ye, Chunyin Qiu, Hailong He, Zhengyou Liu, Shanhui Fan

2020Science Advances89 citationsDOIOpen Access PDF

Abstract

Weyl points are zero-dimensional band degeneracy in three-dimensional momentum space that has nonzero topological charges. The presence of the topological charges protects the degeneracy points against perturbations and enables a variety of fascinating phenomena. It is so far unclear whether such charged objects can occur in higher dimensions. Here, we introduce the concept of charged nodal surface, a two-dimensional band degeneracy surface in momentum space that is topologically charged. We provide an effective Hamiltonian for this charged nodal surface and show that such a Hamiltonian can be implemented in a tight-binding model. This is followed by an experimental realization in a phononic crystal. The measured topologically protected surface arc state of such an acoustic semimetal reproduces excellently the full-wave simulations. Creating high-dimensional charged geometric objects in momentum space promises a broad range of unexplored topological physics.

Topics & Concepts

NODALSemimetalSurface (topology)PhysicsAcousticsComputer scienceCondensed matter physicsMaterials scienceTopology (electrical circuits)Band gapBiologyGeometryMathematicsAnatomyCombinatoricsTopological Materials and PhenomenaMetamaterials and Metasurfaces ApplicationsNumerical methods in engineering
Experimental demonstration of acoustic semimetal with topologically charged nodal surface | Litcius