Direct analytic continuation of the self-energy is used to determine the effect of antiferromagnetic ordering on the spectral function and optical conductivity of a Mott insulator. Comparison of several methods shows that the most robust estimation of the gap value is obtained by use of the real part of the continued self-energy in the quasiparticle equation within the single-site dynamical mean-field theory of the two-dimensional square lattice Hubbard model, where, for a U that is slightly greater than the Mott critical value, antiferromagnetism increases the gap by about 80%.
Antiferromagnetism and the gap of a Mott insulator: Results from analytic continuation of the self-energy
Massimo Capone;
2009
Abstract
Direct analytic continuation of the self-energy is used to determine the effect of antiferromagnetic ordering on the spectral function and optical conductivity of a Mott insulator. Comparison of several methods shows that the most robust estimation of the gap value is obtained by use of the real part of the continued self-energy in the quasiparticle equation within the single-site dynamical mean-field theory of the two-dimensional square lattice Hubbard model, where, for a U that is slightly greater than the Mott critical value, antiferromagnetism increases the gap by about 80%.File in questo prodotto:
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