Magnetic and pair correlations of the Hubbard model with next-nearest-neighbor hopping

TitreMagnetic and pair correlations of the Hubbard model with next-nearest-neighbor hopping
Type de publicationJournal Article
Nouvelles publications1995
AuteursVeilleux, AF, Dare, AM, Chen, LA, Vilk, YM, Tremblay, A-MS
JournalPhysical Review B
Volume52
Pagination16255–16263
Résumé

A combination of analytical approaches and quantum Monte Carlo simulations is used to study both magnetic and pairing correlations for a version of the Hubbard model that includes second-neighbor hopping t'=-0.35t as a model for high-temperature superconductors. Magnetic properties are analyzed using the two-particle self-consistent approach. The maximum in magnetic susceptibility as a function of doping appears both at finite t' and at t'=0 but for two totally different physical reasons. When t'=0, it is induced by antiferromagnetic correlations while at t'=-0.35t it is a band structure effect amplified by interactions. Finally, pairing fluctuations are compared with T-matrix results to disentangle the effects of van Hove singularity and of nesting on superconducting correlations. The addition of antiferromagnetic fluctuations increases slightly the d-wave superconducting correlations despite the presence of a van Hove singularity which tends to decrease them in the repulsive model. Some aspects of the phase diagram and some subtleties of finite-size scaling in Monte Carlo simulations, such as inverted finite-size dependence, are also discussed.

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