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AbstractWe study the fine structure of long‐time quantum noise in correlation functions of AdS/CFT systems. Under standard assumptions of quantum chaos for the dynamics and the observables, we estimate the size of exponentially small oscillations and trace them back to geometrical features of the bulk system. The noise level is highly suppressed by the amount of dynamical chaos and the amount of quantum impurity in the states. This implies that, despite their missing on the details of Poincaré recurrences, ‘virtual’ thermal AdS phases do control the overall noise amplitude even at high temperatures where the thermal ensemble is dominated by large AdS black holes. We also study EPR correlations and find that, in contrast to the behavior of large correlation peaks, their noise level is the same in TFD states and in more general highly entangled states.
High Energy Physics - Theory, Black holes, FOS: Physical sciences, Quantum field theory on curved space or space-time backgrounds, black holes, Two-dimensional field theories, conformal field theories, etc. in quantum mechanics, Statistical mechanics of gases, High Energy Physics - Theory (hep-th), Quantum coherence, entanglement, quantum correlations, AdS/CFT, Quantization of the gravitational field, Quantum chaos
High Energy Physics - Theory, Black holes, FOS: Physical sciences, Quantum field theory on curved space or space-time backgrounds, black holes, Two-dimensional field theories, conformal field theories, etc. in quantum mechanics, Statistical mechanics of gases, High Energy Physics - Theory (hep-th), Quantum coherence, entanglement, quantum correlations, AdS/CFT, Quantization of the gravitational field, Quantum chaos
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