Spectral properties of a narrow-band Anderson model

Abstract

We consider single-particle spectra of a symmetric narrow-band Anderson impurity model, where the host bandwidth D is small compared to the hybridization strength 0. Simple 2nd order perturbation theory (2PT) in U is found to produce a rich spectral structure, that leads to rather good agreement with extant Lanczos results and offers a transparent picture of the underlying physics. It also leads naturally to two distinct regimes of spectral behaviour, 0Z/D 1 and 1 (with Z the quasi-particle weight), whose existence and essential characteristics are discussed and shown to be independent of 2PT itself. The self-energy iω is also examined beyond the confines of PT. It is argued that on frequency scales of order ωDelta0D, the self-energy in strong coupling is given precisely by the 2PT result, and we point out that the resultant poles in iω connect continuously to that characteristic of the atomic limit. This in turn offers a natural rationale for the known inability of the skeleton expansion to capture such behaviour, and points to the intrinsic dangers of partial infinite-order summations that are based on PT in U.

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