We investigate the Hubbard model on a two-dimensional cluster of 18 sites using Lanczos algorithm for different strengths of Coulomb repulsion in the low doping region. Energies and correlation functions are given for half-filling and two holes. In the strong coupling regime we compare our results with the t-J model. We confirm the tendency of holes to repel, although a significant value of the d(x2-y2)-wave superconductive order parameter is measured. These data represent a benchmark for future quantum simulations.
Ground-state properties of the Hubbard model by Lanczos diagonalizations
Becca, Federico;Sorella, Sandro
2000-01-01
Abstract
We investigate the Hubbard model on a two-dimensional cluster of 18 sites using Lanczos algorithm for different strengths of Coulomb repulsion in the low doping region. Energies and correlation functions are given for half-filling and two holes. In the strong coupling regime we compare our results with the t-J model. We confirm the tendency of holes to repel, although a significant value of the d(x2-y2)-wave superconductive order parameter is measured. These data represent a benchmark for future quantum simulations.File in questo prodotto:
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