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W1504766587 abstract "It is well-known that the quantum linear response theory is based on the first-order perturbation theory for a system in thermal equilibrium. Hence, this theory breaks down when the system is in a steady state far from thermal equilibrium and the response up to higher order in perturbation is not negligible. In this paper, we develop a nonlinear response theory for such quantum open system. We first formulate this theory in terms of general susceptibility, after which we apply it to the derivation of Hall conductance for open system at finite temperature. As an example, the Hall conductance of the two-band model is derived. Then we calculate the Hall conductance for a two-dimensional ferromagnetic electron gas and a two-dimensional lattice model. The calculations show that the transition points of topological phase are robust against the environment. Our results provide a promising platform for the coherent manipulation of the nonlinear response in quantum open system, which has potential applications for quantum information processing and statistical physics." @default.
W1504766587 created "2016-06-24" @default.
W1504766587 creator A5040075114 @default.
W1504766587 creator A5049751022 @default.
W1504766587 creator A5065904518 @default.
W1504766587 creator A5068389603 @default.
W1504766587 date "2015-11-17" @default.
W1504766587 modified "2023-10-09" @default.
W1504766587 title "General response formula and application to topological insulator in quantum open system" @default.
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W1504766587 doi "https://doi.org/10.1103/physreve.92.052122" @default.
W1504766587 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/26651662" @default.
W1504766587 hasPublicationYear "2015" @default.
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