Abstract
It is well known that connected moments expansions when used to approximate the ground-state energy of Hamiltonian systems may suffer from extraneous singularities in various regions of parameter space. In this brief Letter a numerical investigation is presented to study an approximation scheme developed by Ullah to avoid the singularities found in moments expansions. Specifically, we study the single-impurity Wolff model as well as the 32-site Anderson lattice.
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