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Effective Onsite Interaction for Dynamical Mean-Field Theory

A scheme to incorporate non-local polarizations into the dynamical mean-field theory (DMFT) and a tailor-made way to determine the effective interaction for the DMFT are systematically investigated. Applying it to the two-dimensional Hubbard model, we find that non-local polarizations induce a non-trivial filling-dependent anti-screening effect for the effective interaction. The present scheme combined with density functional theory offers an ab initio way to derive effective onsite interactions for the impurity problem in DMFT. We apply it to SrVO3 and find that the anti-screening competes with the screening caused by the off-site interaction.

preprint2012arXivOpen access
Yusuke NomuraMerzuk KaltakKazuma NakamuraCiro TarantoShiro SakaiAlessandro ToschiRyotaro AritaKarsten HeldGeorg KresseMasatoshi Imada
cond-mat.str-el
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Yusuke NomuraMerzuk KaltakKazuma NakamuraCiro TarantoShiro SakaiAlessandro ToschiRyotaro AritaKarsten HeldGeorg KresseMasatoshi Imada

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