Self-consistent $d_{x}^{2}$ - $y^{2}$ pairing in a two-dimensional Hubbard model

21 March 1994

journal article
research article
Published by American Physical Society (APS) in Physical Review Letters

Vol. 72 (12) , 1874-1877
https://doi.org/10.1103/physrevlett.72.1874

Abstract

Results of a conserving fluctuation exchange calculation for the superconducting state of a two-dimensional Hubbard model are presented. Self-consistent solutions for the full momentum- and frequency-dependent gap, renormalization, and frequency shift parameters have been obtained. The resulting frequency- and momentum-dependent gap is found to have

d_{x}^{2}

y^{2}

symmetry. Below

T_{c}

, the maximum gap opens rapidly to a low temperature 2Δ(0)/

{kT}_{c}

value of order 10. We find that the effective interaction arising from the exchange of spin and charge fluctuations is stabilized by self-energy feedback effects as the superconducting gap opens.

Keywords

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Self-consistentdx2-y2pairing in a two-dimensional Hubbard model

Abstract

Keywords

Self-consistent $d_{x}^{2}$ - $y^{2}$ pairing in a two-dimensional Hubbard model