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W3025290478 abstract "The dual fermion approach provides a formally exact prescription for calculating properties of a correlated electron system in terms of a diagrammatic expansion around dynamical mean-field theory (DMFT). Most practical implementations, however, neglect higher-order interaction vertices beyond two-particle scattering in the dual effective action and further truncate the diagrammatic expansion in the two-particle scattering vertex to a leading-order or ladder-type approximation. In this work, we compute the dual fermion expansion for the two-dimensional Hubbard model including all diagram topologies with two-particle interactions to high orders by means of a stochastic diagrammatic Monte Carlo algorithm. We benchmark the obtained self-energy against numerically exact diagrammatic determinant Monte Carlo simulations to systematically assess convergence of the dual fermion series and the validity of these approximations. We observe that, from high temperatures down to the vicinity of the DMFT N'eel transition, the dual fermion series converges very quickly to the exact solution in the whole range of Hubbard interactions considered ($4ensuremath{le}U/tensuremath{le}12$), implying that contributions from higher-order vertices are small. As the temperature is lowered further, we observe slower series convergence, convergence to incorrect solutions, and ultimately divergence. This happens in a regime where magnetic correlations become significant. We find, however, that the self-consistent particle-hole ladder approximation yields reasonable and often even highly accurate results in this regime." @default.
W3025290478 created "2020-05-21" @default.
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W3025290478 date "2017-03-01" @default.
W3025290478 modified "2023-09-26" @default.
W3025290478 title "Diagrammatic Monte Carlo approach for diagrammatic extensions of dynamical mean-field theory - convergence analysis of the dual fermion technique" @default.
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