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Converting $PT$-Symmetric Topological Classes by Floquet Engineering

Mesoscale and Nanoscale Physics 2025-04-22 v1 Quantum Physics

Abstract

Going beyond the conventional classification rule of Altland-Zirnbauer symmetry classes, PTPT symmetric topological phases are classified by (PT)2=1(PT)^2=1 or 1-1. The interconversion between the two PTPT-symmetric topological classes is generally difficult due to the constraint of (PT)2(PT)^2. Here, we propose a scheme to control and interconvert the PTPT-symmetric topological classes by Floquet engineering. We find that it is the breakdown of the Z2\mathbb{Z}_2 gauge, induced by the π\pi phase difference between different hopping rates, by the periodic driving that leads to such an interconversion. Relaxing the system from the constraint of (PT)2(PT)^2, rich exotic topological phases, e.g., the coexisting PTPT-symmetric first-order real Chern insulator and second-order topological insulators not only in different quasienergy gaps, but also in one single gap, are generated. In contrast to conventional Floquet topological phases, our result provides a way to realize exotic topological phases without changing symmetries. It enriches the family of topological phases and gives an insightful guidance for the development of multifunctional quantum devices.

Keywords

Cite

@article{arxiv.2504.14846,
  title  = {Converting $PT$-Symmetric Topological Classes by Floquet Engineering},
  author = {Ming-Jian Gao and Jun-Hong An},
  journal= {arXiv preprint arXiv:2504.14846},
  year   = {2025}
}

Comments

7 pages and 4 figures

R2 v1 2026-06-28T23:05:08.441Z