Projective Quantum Monte Carlo Method for the Anderson Impurity Model
  and its Application to Dynamical Mean Field Theory

E. Müller-Hartmann; F. F. Assaad; G. Sugiyama; K. Held; K. Held; L. Kouwenhoven; M. Feldbacher; M. Imada; S. Sorella

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Projective Quantum Monte Carlo Method for the Anderson Impurity Model and its Application to Dynamical Mean Field Theory

Authors: E. Müller-Hartmann
F. F. Assaad
G. Sugiyama
K. Held
K. Held
L. Kouwenhoven
M. Feldbacher
M. Imada
S. Sorella
Publication date: 1 January 2004
Publisher: 'American Physical Society (APS)'
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Abstract

We develop a projective quantum Monte Carlo algorithm of the Hirsch-Fye type for obtaining ground state properties of the Anderson impurity model. This method is employed to solve the self-consistency equations of dynamical mean field theory. It is shown that the approach converges rapidly to the ground state so that reliable zero-temperature results are obtained. As a first application, we study the Mott-Hubbard metal-insulator transition of the one-band Hubbard model, reconfirming the numerical renormalization group results.Comment: 4 pages, 4 figure

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