Phase Diagram of a Model of Correlated Hopping of Electrons in a Lattice of Berry Molecules

Abstract

The 1D phase diagram of a model for correlated hopping of electrons in a lattice of Berry phase molecules is presented. Electrons hop in presence of an extra orbital degree of freedom at each site. This is mimicked as a spin-1 variable whose allowed states depend on the electron occupancy so as to take into account the orbital degeneracies of different molecular occupancies. In the 1D case we find that at low electron densities n<<1 there is a region with dominant superconducting correlations surviving an additional repulsive on-site interaction U as strong as the bandwidth, W=4t. The critical value Uc of U below which superconductivity is found to be dominant decreases with increasing density n. For n=1/2 we find Uc/t≈ 1, whereas at n=1 (half-filling) our (less accurate) results are compatible with Uc/t≈ 0. For U>Uc(n) and away from half-filling (n≠ 1) the system is metallic with dominant 2kF charge density wave (CDW) correlations. At half-filling a charge gap opens for U>Uc and the system becomes an insulator. A spin-gap characterizes the phase-diagram for all densities and for all values of U, even in the metallic regime U>Uc.

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