Related papers: Topological Anderson insulator and reentrant topological transitions in a mosaic trimer lattice

Topological Anderson insulator and reentrant topological transitions in a mosaic trimer lattice

URL: http://arxiv.org/abs/2601.13760v1
Date: Tue, 20 Jan 2026 09:12:27 GMT
Title: Topological Anderson insulator and reentrant topological transitions in a mosaic trimer lattice
Authors: Xiatao Wang, Li Wang, Shu Chen,
Abstract summary: We study the topological properties of a one-dimensional quasiperiodic-potential-modulated mosaic trimer lattice.<n>We show that quasiperiodic disorder gives rise to multiple distinct effects for different fillings.
Score: 3.562321831978805
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: We study the topological properties of a one-dimensional quasiperiodic-potential-modulated mosaic trimer lattice. To begin with, we first investigate the topological properties of the model in the clean limit free of quasiperiodic disorder based on analytical derivation and numerical calculations of the Zak phase $Z$ and the polarization $P$. Two nontrivial topological phases corresponding to the $1/3$ filling and $2/3$ filling, respectively, are revealed. Then we incorporate the mosaic modulation and investigate the influence of quasiperiodic disorder on the two existing topological phases. Interestingly, it turns out that quasiperiodic disorder gives rise to multiple distinct effects for different fillings. At $2/3$ filling, the topological phase is significantly enhanced by the quasiperiodic disorder and topological Anderson insulator emerges. Based on the calculations of polarization and energy gap, we explicitly present corresponding topological phase diagram in the $λ-J$ plane. While for the $1/3$ filling case, % the topological phase is dramatically suppressed by the same quasiperiodic disorder. the quasiperiodic disorder dramatically compresses the topological phase, and strikingly, further induces the emergence of reentrant topological phase transitions instead. Furthermore, we verify the topological phase diagrams by computing the many-body ground state fidelity susceptibility for both the $1/3$ filling and $2/3$ filling cases. Our work exemplifies the diverse roles of quasiperiodic disorder in the modulation of topological properties, and will further inspire more research on the competitive and cooperative interplay between topological properties and quasiperiodic disorder.

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