Destruction of Superconductivity by Impurities in the Attractive Hubbard Model
Abstract
We study the effect of U=0 impurities on the superconducting and thermodynamic properties of the attractive Hubbard model on a square lattice. Removal of the interaction on a critical fraction of f crit ≈ 0.30 of the sites results in the destruction of off-diagonal long range order in the ground state. This critical fraction is roughly independent of filling in the range 0.75 < < 1.00, although our data suggest that f crit might be somewhat larger below half-filling than at =1. We also find that the two peak structure in the specific heat is present at f both below and above the value which destroys long range pairing order. It is expected that the high T peak associated with local pair formation should be robust, but apparently local pairing fluctuations are sufficient to generate a low temperature peak.
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