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Article Dans Une Revue Physical Review A Année : 2024

Quantum Darwinism-encoding transitions on expanding trees

Résumé

Quantum Darwinism (QD) proposes that classical objectivity emerges from the broadcast of infor- mation about a microscopic degree of freedom into multiple fractions of a many-body environment. Such a broadcast of information is in sharp contrast with its scrambling under strong interaction. It was recently shown that quantum dynamics interpolating between broadcasting and scrambling may display sharp phase transitions of information propagation, named QD-encoding transitions. Here, we initiate their systematic study in generic, non-Clifford settings. First, in a general the- oretical setup where the information propagation is modeled as an isometry, whose input qudit is entangled with a reference, we propose a probe of the transitions — the distribution of the density matrix of the reference after measuring an environment fraction. This probe measures the classical correlation between the fraction and the injected information. We then apply the framework to two similar models defined by a tensor network on an expanding tree, modeling a noisy apparatus that attempts to broadcast the z component of a spin-half. We derive an exact recursion relation of the density matrix distribution, which we analyze analytically and numerically. As a result we find three phases: QD, intermediate and encoding, and two continuous transitions. The encoding- intermediate transition describes the establishment of nonzero correlation between the reference and a small environment fraction, and can be probed by a “coarse-grained” measure of the total spin-z of the fraction, which becomes non-Gaussian and symmetry breaking in the intermediate space. The QD-intermediate transition is about whether the correlation is perfect. It must be probed by fined-grained measures, and corresponds to a more subtle symmetry breaking in the replica space.
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Dates et versions

hal-04525740 , version 1 (28-03-2024)

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Benoît Ferté, Xiangyu Cao. Quantum Darwinism-encoding transitions on expanding trees. Physical Review A, 2024, 109 (3), pp.032226. ⟨10.1103/PhysRevA.109.032226⟩. ⟨hal-04525740⟩
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