Scaling behavior of an Anderson impurity close to the Mott-Anderson transition
Abstract
The scaling behavior of Anderson impurity models each of which with a different site energy epsiloni is examined close to the Mott-Anderson transition. Depending on the impurity energy epsiloni, in the critical regime the site turns into a local magnetic moment, as indicated by a vanishing quasiparticle weight Z -> 0, or remains nearly doubly occupied or nearly empty, corresponding to Z -> 1. In this paper, we present the scaling behavior of Z as a function of the on-site energy epsiloni and the distance t to the transition, and interpret our result in terms of an appropriate beta function beta(Z).
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