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Nonequilibrium pseudogap Anderson impurity model: A master equation tensor network approach

Delia Maria Fugger, Daniel Bauernfeind, Max Erich Sorantin, Enrico Arrigoni

2020Physical review. B./Physical review. B25 citationsDOIOpen Access PDF

Abstract

We study equilibrium and nonequilibrium properties of the single-impurity Anderson model with a power-law pseudogap in the density of states. In equilibrium, the model is known to display a quantum phase transition from a generalized Kondo to a local moment phase. In the present work, we focus on the extension of these phases beyond equilibrium, i.e., under the influence of a bias voltage. Within the auxiliary master equation approach combined with a scheme based on matrix product states (MPS) we are able to directly address the current-carrying steady state. Starting with the equilibrium situation, we first corroborate our results by comparing to a direct numerical evaluation of ground-state spectral properties of the system by MPS. Here, a scheme to locate the phase boundary by extrapolating the power-law exponent of the self energy produces a very good agreement with previous results obtained by the numerical renormalization group. Our nonequilibrium study as a function of the applied bias voltage is then carried out for two points on either side of the phase boundary. In the Kondo regime the resonance in the spectral function is split as a function of the increasing bias voltage. The local moment regime, instead, displays a dip in the spectrum near the position of the chemical potentials. Similar features are observed in the corresponding self energies. The Kondo split peaks approximately obey a power-law behavior as a function of frequency whose exponents depend only slightly on voltage. Finally, the differential conductance in the Kondo regime shows a peculiar maximum at finite voltages, whose height, however, is below the accuracy level.

Topics & Concepts

PhysicsAnderson impurity modelPseudogapNon-equilibrium thermodynamicsCondensed matter physicsPower lawKondo modelStatistical physicsQuantum mechanicsKondo effectMathematicsElectrical resistivity and conductivityElectronDopingStatisticsCuprateQuantum and electron transport phenomenaPhysics of Superconductivity and MagnetismQuantum many-body systems