Causal versus local GW+EDMFT scheme and application to the triangular-lattice extended Hubbard model
Abstract
Using the triangular-lattice extended Hubbard model as a test system, we compare GW+EDMFT results for the recently proposed self-consistency scheme with causal auxiliary fields to those obtained from the standard implementation which identifies the impurity Green's functions with the corresponding local lattice Green's functions. Both for short-ranged and long-ranged interactions we find similar results, but the causal scheme yields slightly stronger correlation effects at half-filling. We use the two implementations of GW+EDMFT to compute spectral functions and dynamically screened interactions in the parameter regime relevant for 1T-TaS2. We address the question whether or not the sample used in a recent photoemission study [Phys. Rev. Lett. 120, 166401 (2018)] was half-filled or hole-doped.
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