We present a brief pedagogical review of theoretical Green's function methods applicable to
open quantum systems out of equilibrium, in general, and single molecule junctions, in …

We review one of the most versatile theoretical approaches to the study of time-dependent
correlated quantum transport in nano-systems: the non-equilibrium Green's function (NEGF) …

With the aid of Keldysh nonequilibrium Green's functions, we investigate the quench
dynamics in a superconductor–quantum dot–superconductor (S-QD-S) Josephson junction …

We investigate the effects of alternating voltage on nonequilibrium quantum systems with
localized phonon modes. Nonequilibrium Green's functions are utilized, with electron …

The interaction with time-dependent external fields, especially the interplay between time-
dependent driving and quantum correlations, changes the familiar picture of electron …

The Anderson impurity model is a paradigmatic example in the study of strongly correlated
quantum systems and describes an interacting quantum dot coupled to electronic leads …

Abstract Recent experiments (2015 Nature 521 196; 2017 Nat. Commun. 8 395) have
presented evidence for electron pairing in a quantum dot beyond the superconducting …

Quantum system abruptly driven from its stationary phase can reveal nontrivial dynamics
upon approaching a new final state. We investigate here such dynamics for a correlated …

A numerical method to solve the set of Dyson‐like equations in the framework of non‐
equilibrium Green's functions is presented. The technique is based on the self‐consistent …

Impurities coupled to superconductors offer a controlled platform to understand the interplay
between superconductivity, many-body interactions, and nonequilibrium physics. In the …