Physics – Condensed Matter – Strongly Correlated Electrons
Scientific paper
1998-04-16
Physics
Condensed Matter
Strongly Correlated Electrons
11 pages, 1 figure, results at half filling modified, references added, new section III
Scientific paper
10.1103/PhysRevB.59.7382
Combining the Bethe Ansatz with a functional deviation expansion and using an asymptotic expansion of the Bethe Ansatz equations, we compute the curvature of levels D_n at any filling for the one-dimensional lattice spinless fermion model. We use these results to study the finite temperature charge stiffness D(T). We find that the curvature of the levels obeys, in general, the relation D_n=D_0+\delta D_n, where D_0 is the zero-temperature charge stiffness and \delta D_n arises from excitations. Away from half filling and for the low-energy (gapless) eigenstates, we find that the energy levels are, in general, flux dependent and, therefore, the system behaves as an ideal conductor, with D(T) finite. We show that if gapped excitations are included the low-energy excitations feel an effective flux \Phi^{eff} which is different from what is usually expected. At half filling, we prove, in the strong interacting limit and to order 1/V (V is the nearest-neighbor Coulomb interaction), that the energy levels are flux independent. This leads to a zero value for the curvature of levels D_n and, as consequence, to D(T)=0, proving an earlier conjecture of Zotos and Prelov\v{s}ek.
Campbell David K.
Carmelo Jose. M. P.
Peres Nuno. M. R.
Sacramento Pedro D.
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