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Bridging the gap between classical and quantum many-body information dynamics

Quantum Seminar

Date
Monday, May 23, 2022 11:00 - 12:00
Speaker
Andrea Pizzi (University of Vienna)
Location
Heinzel Seminar Room / Office Bldg West (hybrid enabled) (I21.EG.101)
Series
Seminar/Talk
Tags
Physical Sciences Seminar, physics_seminar_ics, quantum_seminar_ics
Host
Maksym Serbyn
Contact

The fundamental question of how information spreads in closed quantum many-body systems is often addressed through the lens of the bipartite entanglement entropy, a quantity that describes correlations in a comprehensive (nonlocal) way. Among the most striking features of the entanglement entropy are its unbounded linear growth in the thermodynamic limit, its asymptotic extensivity in finite-size systems, and the possibility of measurement-induced phase transitions, all of which have no obvious classical counterpart. Here, we show how these key qualitative features emerge naturally also in classical information spreading, as long as one treats the classical many-body problem on par with the quantum one, that is, by explicitly accounting for the exponentially large classical probability distribution. Our analysis is supported by extensive numerics on prototypical cellular automata and Hamiltonian systems, for which we focus on the classical mutual information and also introduce a classical entanglement entropy'. Our study sheds light on the nature of information spreading in classical and quantum systems, and opens new avenues for quantum-inspired classical approaches across physics, information theory, and statistics.


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