2018
DOI: 10.1103/physrevb.98.035146
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Charge redistribution in correlated heterostuctures within nonequilibrium real-space dynamical mean-field theory

Abstract: We address the steady-state behavior of a system consisting of several correlated monoatomic layers sandwiched between two metallic leads under the influence of a bias voltage. In particular, we investigate the interplay of the local Hubbard and the long-range Coulomb interaction on the charge redistribution at the interface, in the paramagnetic regime of the system. We provide a detailed study of the importance of the various system parameters, like Hubbard U , lead-correlated region coupling strength, and th… Show more

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Cited by 11 publications
(5 citation statements)
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“…Transient dynamics in quantum correlated lattice networks can also be resolved by using the dynamical mean-field theory (DMFT) [107,108], which uses a local impurity model as its starting point, and constructs an expansion in terms of the coupling between the impurity and its dynamical environment. This expansion can also be applied in the context of quantum transport [109][110][111]. Another widely used method is the density matrix renormalization group (DMRG) and its timedependent extension [112][113][114].…”
Section: Historical Overview On Quantum Transport Theories In the Tra...mentioning
confidence: 99%
“…Transient dynamics in quantum correlated lattice networks can also be resolved by using the dynamical mean-field theory (DMFT) [107,108], which uses a local impurity model as its starting point, and constructs an expansion in terms of the coupling between the impurity and its dynamical environment. This expansion can also be applied in the context of quantum transport [109][110][111]. Another widely used method is the density matrix renormalization group (DMRG) and its timedependent extension [112][113][114].…”
Section: Historical Overview On Quantum Transport Theories In the Tra...mentioning
confidence: 99%
“…Transient dynamics in quantum correlated lattice networks can also be resolved by using the dynamical mean-field theory (DMFT) [108,109], which uses a local impurity model as its starting point, and constructs an expansion in terms of the coupling between the impurity and its dynamical environment. This expansion can also be applied in the context of quantum transport [110][111][112]. Another widely used method is the density matrix renormalization group (DMRG) and its time-dependent extension [113][114][115].…”
Section: Historical Overview On Quantum Transport Theories In the Tra...mentioning
confidence: 99%
“…This implicit scheme allows a non-perturbative evaluation of the QBE, provided that an efficient numerical description of a NESS is available: To evaluate Σness k,ω F (•, t), ... and A k (ω, t) = Âness k,ω F (•, t), ... for a given distribution function F , we choose an auxiliary steady state system with reservoir self-energy ΓR k (ω) = Γ R k (ω, t), while the bath occupation function, and hence Γ< k (ω) is treated as a free parameter. The latter is chosen such that the solution Fk (ω) gives the prescribed F k (ω, t), after which the outcomes Āk (ω) and Σint,k (ω) are used to evaluate (38) and (39). In particular, within non-equilibrium DMFT, where only local self-energies need to be evaluated in a quantum impurity model, several promising non-perturbative techniques are available that can directly target such non-equilibrium states (see discussion in Sec.…”
Section: Non-perturbative Evaluation Of the Scattering Integralmentioning
confidence: 99%
“…This allows to consistently combine the QBE with non-perturbative methods which have been developed to study true non-equilibrium steady states within DMFT. [37][38][39][40][41][42][43] The paper is organized as follows: In section II, we present the formulation of a non-perturbative QBE which is consistent with non-equilibrium DMFT. In Sec.…”
Section: Introductionmentioning
confidence: 99%