Numerical study of a superconductor-insulator transition in a half-filled Hubbard chain with distant transfers
Abstract
The ground state of a one-dimensional Hubbard model having the next-nearest neighbor hopping (t') as well as the nearest-neighbor one (t) is numerically investigated at half-filling. A quantum Monte Carlo result shows a slowly decaying pairing correlation for a sizeable interaction strength (U ≤ 2t), while the system is shown to become insulating for yet larger U>UC 3t from a direct evaluation of the charge gap with the density-matrix renormalization group method. The results are consistent with Fabrizio's recent weak-coupling theory which suggests a transition from a superconductor into an insulator at a finite U.
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