Related papers: Making topologically trivial non-Hermitian systems nontrivial via gauge fields

Making topologically trivial non-Hermitian systems nontrivial via gauge fields

URL: http://arxiv.org/abs/2309.14042v2
Date: Thu, 26 Oct 2023 02:46:53 GMT
Title: Making topologically trivial non-Hermitian systems nontrivial via gauge fields
Authors: W. B. Rui, Y. X. Zhao, and Z. D. Wang
Abstract summary: Non-Hermiticity significantly enriches the concepts of symmetry and topology in physics. Here, we present a general mechanism to cross the symmetry barrier. Our work suggests that gauge structures may significantly enrich non-Hermitian physics at the fundamental level.
Score: 0.0
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: Non-Hermiticity significantly enriches the concepts of symmetry and topology in physics. Particularly, non-Hermiticity gives rise to the ramified symmetries, where the non-Hermitian Hamiltonian $H$ is transformed to $H^\dagger$. For time-reversal ($T$) and sublattice symmetries, there are six ramified symmetry classes leading to novel topological classifications with various non-Hermitian skin effects. As artificial crystals are the main experimental platforms for non-Hermitian physics, there exists the symmetry barrier for realizing topological physics in the six ramified symmetry classes: While artificial crystals are in spinless classes with $T^2=1$, nontrivial classifications dominantly appear in spinful classes with $T^2=-1$. Here, we present a general mechanism to cross the symmetry barrier. With an internal parity symmetry $P$, the square of the combination $\tilde{T}=PT$ can be modified by appropriate gauge fluxes. Using the general mechanism, we systematically construct spinless models for all non-Hermitian spinful topological phases in one and two dimensions, which are experimentally realizable. Our work suggests that gauge structures may significantly enrich non-Hermitian physics at the fundamental level.

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