Self-consistent GW+EDMFT for semiconductors and insulators
Abstract
Theoretical studies of semiconductors and band insulators are usually based on variants of the GW method without full self-consistency, like single-shot G0W0 or quasiparticle self-consistent GW. Fully self-consistent GW provides a poor description of the gap size and electronic structure due to the lack of vertex corrections. While it is hard to predict at which order corrections can be neglected, local vertex corrections to all orders can be consistently included by combining GW with extended dynamical mean field theory (EDMFT). Here, we show that ab initio multitier GW+EDMFT calculations, which achieve full self-consistency in a suitably defined low-energy space, provide a remarkably accurate description of semiconductors and band insulators. Our results imply that despite the weak correlations, local vertex corrections are essential for a consistent treatment of this class of materials.
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