Andreadakis, Faidon scite author profile

Many quantitative approaches to the dynamical scrambling of information in quantum systems involve the study of out-of-time-ordered correlators (OTOCs). In this paper, we introduce an algebraic OTOC (A-OTOC) that allows us to study information scrambling of generalized quantum subsystems under quantum channels. For closed quantum systems, this algebraic framework was recently employed to unify quantum information-theoretic notions of operator entanglement, coherencegenerating power, and Loschmidt echo. The main focus of this work is to provide a natural generalization of these techniques to open quantum systems. We first show that, for unitary dynamics, the A-OTOC quantifies a generalized notion of information scrambling, namely between a subalgebra of observables and its commutant. For open quantum systems, on the other hand, we find a competition between the global environmental decoherence and the local scrambling of information. We illustrate this interplay by analytically studying various illustrative examples of algebras and quantum channels. To complement our analytical results, we perform numerical simulations of two paradigmatic systems: the PXP model and the Heisenberg XXX model, under dephasing. Our numerical results reveal connections with many-body scars and the stability of decoherence-free subspaces.

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Coherence generation, symmetry algebras, and Hilbert space fragmentation

Faidon

Zanardi

2023

Phys. Rev. A

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Andreadakis, Faidon

Scrambling of algebras in open quantum systems

No ((n, k, d < 127)) code can violate the quantum Hamming bound

Scrambling of Algebras in Open Quantum Systems

Coherence generation, symmetry algebras, and Hilbert space fragmentation

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