Orbital embedding and topology of one-dimensional two-band insulators

Abstract

The topological invariants of band insulators are usually assumed to depend only on the connectivity between orbitals and not on their intra-cell position (orbital embedding), which is a separate piece of information in the tight-binding description. For example, in two dimensions, the orbital embedding is known to change the Berry curvature but not the Chern number. Here, we consider one-dimensional inversion-symmetric insulators classified by a Z2 topological invariant =0 or π, related to the Zak phase, and show that crucially depends on orbital embedding. We study three two-band models with bond, site or mixed inversion: the Su-Schrieffer-Heeger model (SSH), the charge density wave model (CDW) and the Shockley model. The SSH (resp. CDW) model is found to have a unique phase with =0 (resp. π). However, the Shockley model features a topological phase transition between =0 and π. The key difference is whether the two orbitals per unit cell are at the same or different positions.

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