Fermi-Surface Reconstruction in the Periodic Anderson Model

Abstract

We study ground state properties of periodic Anderson model in a two-dimensional square lattice with variational Monte Carlo method. It is shown that there are two different types of quantum phase transition: a conventional antiferromagnetic transition and a Fermi-surface reconstruction which accompanies a change of topology of the Fermi surface. The former is induced by a simple back-folding of the Fermi surface while the latter is induced by localization of f electrons. The mechanism of these transitions and the relation to the recent experiments on Fermi surface are discussed in detail.