Interplay between edge states and charge density wave order in the Falicov-Kimball model on a Haldane ribbon

To determine the impact of including edge states on the phase diagram of a spinless Falicov-Kimball model on the Haldane lattice, a study of a corresponding ribbon geometry with zigzag edges is conducted. By varying the ribbon widths, the distinction between the effects connected to the mere presence of the edges and those originating from interference between the edge states is established. The local doping caused by the former is shown to give rise to a topologically trivial bulk insulator with metallic edge states. Additionally, it gives rise to a charge density wave (CDW) phase with mixed character of the subbands in various parts of the phase diagram. The impact of local doping on the CDW instability is also addressed. Two additional gapless phases are found, caused by the edges but with stability regions depending on the width of the ribbon.

Automated summary

The impact of including edge states on the phase diagram of a spinless Falicov-Kimball model on the Haldane lattice is investigated. The presence of edge states leads to a charge density wave phase and metallic edge states. Two additional gapless phases caused by the edges are also discovered.