Topological Amorphous Metals
Abstract
We study amorphous systems with completely random sites and find that, through constructing and exploring a concrete model Hamiltonian, such a system can host an exotic phase of topological amorphous metal in three dimensions. In contrast to the traditional Weyl semimetals, topological amorphous metals break translational symmetry, and thus cannot be characterized by the first Chern number defined based on the momentum space band structures. Instead, their topological properties will manifest in the Bott index and the Hall conductivity as well as the surface states. By studying the energy band and quantum transport properties, we find that topological amorphous metals exhibit a diffusive metal behavior. We further introduce a practical experimental proposal with electric circuits where the predicted phenomena can be observed using state-of-the-art technologies. Our results open a door for exploring topological gapless phenomena in amorphous systems.
Cite
@article{arxiv.1810.07710,
title = {Topological Amorphous Metals},
author = {Yan-Bin Yang and Tao Qin and Dong-Ling Deng and L. -M. Duan and Yong Xu},
journal= {arXiv preprint arXiv:1810.07710},
year = {2019}
}
Comments
12 pages, 10 figures, including SMs, Editors' suggestion