Pseudogaps and their Interplay with Magnetic Excitations in the doped 2D Hubbard Model

Abstract

On the basis of Quantum Monte Carlo simulations of the two-dimensional Hubbard model which cover the doping range from the under- to the over-doped regime, we find that the single-particle spectral weight A ( k,ω) qualitatively reproduces both the momentum (dx2-y2--symmetry) and doping dependence of the pseudogap as found in photoemission experiments. The drastic doping dependence of the spin response s ( q,ω) which is sharp in both q (≈(π,π)) and ω in the under-doped regime but broad and structureless otherwise, identifies remnants of the antiferromagnetic order as the driving mechanism behind the pseudogap and its evolution with doping.

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