Volume 35, Number 2, July II 1996
|Page(s)||115 - 120|
|Section||Condensed matter: electronic structure, electrical, magnetic and optical properties|
|Published online||01 September 2002|
Superconducting instabilities in the tt' Hubbard model in the large-N limit
Max-Planck-Institut für Festkörperforschung
- 70569 Stuttgart, Germany
Accepted: 26 May 1996
Considering Hubbard models with infinite U, N degrees of freedom per site, and hopping terms between nearest and second-nearest neighbours on a square lattice, and using a formulation with X-operators, the leading contributions at large N to the anomalous self-energy and the linearized Eliashberg equation are calculated. Some of these terms have the form of Fock-like terms with an effective two-particle interaction, others have a different structure and have not been discussed previously. Calculating transition temperatures, we find that the new terms found in our 1/N expansion compensate the other terms nearly perfectly suppressing superconducting instabilities to extremely small temperatures.
PACS: 74.20.-z – Superconductivity: Theory / 74.20.Mn – Microscopic theory of high-Tc superconductivity; insulator-superconductor transitions
© EDP Sciences, 1996
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