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W4315704955 abstract "We present multi-scale dynamical simulations of voltage-induced insulator-to-metal transition in the double exchange model, a canonical example of itinerant magnet and correlated electron systems. By combining nonequilibrium Green's function method with large-scale Landau-Lifshitz-Gilbert dynamics, we show that the transition from an antiferromagnetic insulator to the low-resistance state is initiated by the nucleation of a thin ferromagnetic conducting layer at the anode. The metal-insulator interface separating the two phases is then driven toward the opposite electrode by the voltage stress, giving rise to a growing metallic region. We further show that the initial transformation kinetics is well described by the Kolmogorov-Avrami-Ishibashi model with an effective spatial-dimension that depends on the applied voltage. Implications of our findings for the resistive switching in colossal magnetoresistant materials are also discussed." @default.
W4315704955 created "2023-01-12" @default.
W4315704955 creator A5010280063 @default.
W4315704955 date "2022-12-28" @default.
W4315704955 modified "2023-09-24" @default.
W4315704955 title "Spatiotemporal dynamics of voltage-induced resistance transition in the double-exchange model" @default.
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W4315704955 doi "https://doi.org/10.1103/physrevb.106.245146" @default.
W4315704955 hasPublicationYear "2022" @default.
W4315704955 type Work @default.
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