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Realizing a symmetry protected topological phase through dimerized interactions

Strongly Correlated Electrons 2022-11-17 v2 Other Condensed Matter Quantum Gases

Abstract

We show that in a system of one dimensional spinless fermions a topological phase and phase transition can emerge only through interaction. By allowing a dimerized or bond-alternating nearest neighbour interaction we show that the system exhibits a symmetry protected topological phase while its non-interacting limit is a gapless state. The non-trivial topological character appears due to the onset of two degenerate bond-order phases as a function of dimerized interaction which are found to be topologically distinct from each other. As a result a topological phase transition occurs between these bond order phases through a gap closing point. However, in the limit of strong interaction, the bond order phases are connected through a gapped charge density wave phase possessing local antiferromagnetic order. The topological nature is characterized by the edge states, Berry phase and non-local string order parameter. At the end we provide possible experimental signatures of the emergent symmetry protected topological phase transition in terms of Thouless charge pumping and density-density correlation.

Keywords

Cite

@article{arxiv.2202.13966,
  title  = {Realizing a symmetry protected topological phase through dimerized interactions},
  author = {Suman Mondal and Ashirbad Padhan and Tapan Mishra},
  journal= {arXiv preprint arXiv:2202.13966},
  year   = {2022}
}

Comments

4+ pages, 4 figures

R2 v1 2026-06-24T09:56:43.078Z