Physics – Condensed Matter – Strongly Correlated Electrons
Scientific paper
2006-05-05
Physics
Condensed Matter
Strongly Correlated Electrons
Errors in previous versions corrected; CDMFT results added
Scientific paper
10.1103/PhysRevB.75.205118
Quantum Monte Carlo and semiclassical methods are used to solve two and four site cluster dynamical mean field approximations to the square lattice Hubbard model at half filling and strong coupling. The energy, spin correlation function, phase boundary and electron spectral function are computed and compared to available exact results. The comparision permits a quantitative assessment of the ability of the different methods to capture the effects of intersite spin correlations. Two real space methods and one momentum space representation are investigated. One of the two real space methods is found to be significantly worse: in it, convergence to the correct results is found to be slow and, for the spectral function, nonuniform in frequency, with unphysical midgap states appearing. Analytical arguments are presented showing that the discrepancy arises because the method does not respect the pole structure of the self energy of the insulator. Of the other two methods, the momentum space representation is found to provide the better approximation to the intersite terms in the energy but neither approximation is particularly acccurate and the convergence of the momentum space method is not uniform. A few remarks on numerical methods are made.
Fuhrmann Andreas
Millis Andrew. J.
Monien Hartmut
Okamoto Satoshi
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