Abstract
Abstract
We study the finite-size effect on quantum percolation in two-dimensional topological insulators. We demonstrate that the percolation threshold in topological insulators strongly depends on the localization length of the edge states in small clusters due to the finite-size effect. Also, we explain why the percolation threshold in the corresponding classical model determines the lower bound of the quantum percolation threshold in topological insulators. In addition, we extend the percolation model to a more general scenario, where the system is composed of both topological and trivial clusters. We find that the quantum percolation threshold can be less than the classical percolation threshold due to quantum tunneling of the edge states.
Funder
National Natural Science Foundation of China
Chutian Scholars Program
Wuurzburg-Dresden Cluster of Excellence ct.qmat, EXC2147
the innovation group project of the Natural Science Foundation of Hubei Province of China
Deutsche Forschungsgemeinschaft
the program of outstanding young and middle-aged scientific and technological innovation team of colleges and universities in Hubei Province
Subject
Condensed Matter Physics,General Materials Science
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