Origin of Robust Z2 Topological Phases in Stacked Hermitian Systems: Non-Hermitian Level Repulsion
Abstract
Quantum spin Hall insulators, which possess a non-trivial Z2 topological phase, have attracted great attention for two decades. It is generally believed that when an even number of layers of the quantum spin Hall insulators are stacked, the Z2 topological phase becomes unstable due to Z2 nature. While the counterexamples of the instability were observed in several literates, there is no systematic understanding. In this work, we provide a systematic understanding that the robust Z2 topological phase in a Hermitian system with chiral symmetry against stacking. We clarify that the robustness generally originates from level repulsion in the corresponding non-Hermitian system derived from Hermitization. We demonstrate this by treating a class DIII superconductor in 1D with Z2 topology and the corresponding non-Hermitian 1D system in class AII with Z2 point-gap topology.
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