Numerical simulations: some results for the 2- and 3-D Hubbard models and a 2-D electron phonon model
- 1 January 1989
- journal article
- Published by IOP Publishing in Physica Scripta
- Vol. T27, 101-106
- https://doi.org/10.1088/0031-8949/1989/t27/017
Abstract
Numerical simulations on the half-filled 3-D Hubbard model clearly show the onset of Néel order. Simulations of the 2-D electron-phonon Holstein model show the competition between the formation of a Peierls-CDW state and a superconducting state. However, the behavior of the partly filled 2-D Hubbard model is more difficult to determine. At half-filling, the anti-ferromagnetic correlations grow as T is reduced. Doping away from half-filling supresses these correlations, and we find that there is a weak attractive pairing interaction in the d-wave channel. However, the strength of the pair field susceptibility is weak at the temperatures and lattice sizes we have simulated, and the nature of the low-temperature state of the nearly half-filled Hubbard model remains open.Keywords
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