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Phase Diagram of a Model of Correlated Hopping of Electrons in a Lattice of Berry Molecules | Giuseppe Santoro
; Nicola Manini
; Alberto Parola
; Erio Tosatti
; | Date: |
20 Nov 1995 | Subject: | cond-mat | 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 $U_c$ of $U$ below which superconductivity is found to be dominant decreases with increasing density $n$. For $n=1/2$ we find $U_c/tapprox 1$, whereas at $n=1$ (half-filling) our (less accurate) results are compatible with $U_c/tapprox 0$. For $U>U_c(n)$ and away from half-filling ($n
eq 1$) the system is metallic with dominant $2k_F$ charge density wave (CDW) correlations. At half-filling a charge gap opens for $U>U_c$ 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 $U>U_c$. | Source: | arXiv, cond-mat/9511093 | Other source: | [GID 564451] pmid9983039 | Services: | Forum | Review | PDF | Favorites |
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