Quantum Monte Carlo Method in the Steady State

A. Erpenbeck, E. Gull, G. Cohen

Research output: Contribution to journalArticlepeer-review

22 Scopus citations

Abstract

We present a numerically exact steady-state inchworm Monte Carlo method for nonequilibrium quantum impurity models. Rather than propagating an initial state to long times, the method is directly formulated in the steady state. This eliminates any need to traverse the transient dynamics and grants access to a much larger range of parameter regimes at vastly reduced computational costs. We benchmark the method on equilibrium Green's functions of quantum dots in the noninteracting limit and in the unitary limit of the Kondo regime. We then consider correlated materials described with dynamical mean field theory and driven away from equilibrium by a bias voltage. We show that the response of a correlated material to a bias voltage differs qualitatively from the splitting of the Kondo resonance observed in bias-driven quantum dots.

Original languageEnglish
Article number186301
JournalPhysical Review Letters
Volume130
Issue number18
DOIs
StatePublished - 5 May 2023

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