English

Mott transition and integrable lattice models in two dimensions

Strongly Correlated Electrons 2008-12-10 v1 Mesoscale and Nanoscale Physics
Authors: Federico L. Bottesi , Guillermo R. Zemba
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Abstract

We describe the two-dimensional Mott transition in a Hubbard-like model with nearest neighbors interactions based on a recent solution to the Zamolodchikov tetrahedron equation, which extends the notion of integrability to two-dimensional lattice systems. At the Mott transition, we find that the system is in a d-density wave or staggered flux phase that can be described by a double Chern Simons effective theory with symmetry \su2 \otimes \su2. The Mott transition is of topological nature, characterized by the emergence of vortices in antiferromagnetic arrays interacting strongly with the electric charges and an electric-magnetic duality. We also consider the effect of small doping on this theory and show that it leads to a quantum gas-liquid coexistence phase, which belongs to the Ising universality class and which is consistent with several experimental observations.

Keywords

mott insulator transition bose-hubbard model hubbard model phase diagram

Cite

@article{arxiv.0812.1764,
  title  = {Mott transition and integrable lattice models in two dimensions},
  author = {Federico L. Bottesi and Guillermo R. Zemba},
  journal= {arXiv preprint arXiv:0812.1764},
  year   = {2008}
}

Comments

6 pages, two column format

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