English

Charge order on a triangular lattice with Mott physics and arbitrary charge density

Strongly Correlated Electrons 2026-05-19 v1 Materials Science Quantum Gases Statistical Mechanics Computational Physics

Abstract

Triangular-lattice systems attract a lot of attention due to various frustration-induced and strongly correlated effects. Here, we focus on the charge-ordering phenomenon by means of investigation of the extended Hubbard model with dynamical mean-field theory (DMFT). By considering the intersite nearest-neighbor interaction we have found a very rich phase diagram that contains large number of features, phases, and phase transitions. Among them are pinball-liquid (PL) phases where we distinguish charge-transfer-driven and Mott-localization-driven PLs; phase transitions that change their order as model parameters evolve (from discontinuous to continuous); very strong particle-hole asymmetry. Various features of the phase diagram are found to be better understood by means of the simple mean-field approximation (MFA). Moreover, besides helping with interpretation of the phase diagram, the MFA results together with results for the atomic-limit model are found to be able to set rather good expectations on how the DMFT phase diagram should look like. Nevertheless, a few features were not expected and are found within the DMFT, such as a small-region intermediate metallic phase on an electron-doped side of the phase diagram.

Keywords

Cite

@article{arxiv.2605.18575,
  title  = {Charge order on a triangular lattice with Mott physics and arbitrary charge density},
  author = {Aleksey Alekseev and Agnieszka Cichy and Konrad Jerzy Kapcia},
  journal= {arXiv preprint arXiv:2605.18575},
  year   = {2026}
}

Comments

14 pages, 7 figures, 80 references; RevTeX class, double-column formatting; includes also Supplemental Material (3 pages, 4 figures)