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Mixed-configuration approximation for multi-orbital systems out of equilibrium

Published 14 Jul 2025 in cond-mat.str-el | (2507.10717v1)

Abstract: We propose a mixed-configuration approximation based on single-band impurity solvers to efficiently study nonequilibrium multi-orbital systems at moderate computational cost. In this work, we merge the approach with the so-called auxiliary master equation approach. As benchmark, we first show that our approach reproduces the results of quantum Monte Carlo (QMC) for two-orbital impurity models at equilibrium with overall good accuracy, especially for non-degenerate orbitals. We then use our approach as impurity solver for dynamical mean-field theory (DMFT) to address the case of a two-orbital, realistic layered structure, recovering the strong crystal-field-driven charge polarization observed by solving the DMFT self-consistent cycle with QMC, albeit slightly reduced. Finally, we address a prototype nonequilibrium setup by sandwiching this layer between metallic contacts subject to a bias voltage described by different chemical potentials. This simplified model demonstrates out method's potential to access nonequilibrium steady-state behavior of multi-orbital, realistic materials. These findings provide a first-step basis for theoretical studies of nonequilibrium properties of multi-orbital compounds directly in the real frequency domain.

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