Renormalization of the periodic Anderson model: an alternative analytical approach to heavy Fermion behavior

Abstract

In this paper a recently developed projector-based renormalization method (PRM) for many-particle Hamiltonians is applied to the periodic Anderson model (PAM) with the aim to describe heavy Fermion behavior. In this method high-energetic excitation operators instead of high energetic states are eliminated. We arrive at an effective Hamiltonian for a quasi-free system which consists of two non-interacting heavy-quasiparticle bands. The resulting renormalization equations for the parameters of the Hamiltonian are valid for large as well as small degeneracy f of the angular momentum. An expansion in 1/f is avoided. Within an additional approximation which adapts the idea of a fixed renormalized f level εf, we obtain coupled equations for εf and the averaged f occupation <nf>. These equations resemble to a certain extent those of the usual slave boson mean-field (SB) treatment. In particular, for large f the results for the PRM and the SB approach agree perfectly whereas considerable differences are found for small f.

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