Auxiliary master equation for nonequilibrium dual-fermion approach

TL;DR

The paper introduces a new auxiliary quantum master equation combined with the dual fermion approach to efficiently describe steady-states of correlated impurity systems, improving accuracy and computational cost.

Contribution

It presents a novel QME-DF method that offers a closer reference to true nonequilibrium states and reduces computational effort compared to previous dual fermion approaches.

Findings

QME-DF accurately reproduces steady-state properties.

The method is computationally cheaper than previous approaches.

Validation against tdDMRG shows good agreement.

Abstract

We introduce auxiliary quantum master equation - dual fermion approach (QME-DF) and argue that it presents a convenient way to describe steady-states of correlated impurity systems. The combined scheme yields an expansion around a reference much closer to the true nonequilibrium state than in the original dual fermion formulation. In steady-state situations, the scheme is numerically cheaper and allows to avoid long time propagation of previous considerations. Anderson impurity is used as a test model. The QME-DF simulations are compared with numerically exact tdDMRG results.