Operational Metric for Quantum Chaos and the Corresponding
Spatiotemporal Entanglement Structure
- URL: http://arxiv.org/abs/2210.14926v4
- Date: Tue, 6 Feb 2024 02:59:34 GMT
- Title: Operational Metric for Quantum Chaos and the Corresponding
Spatiotemporal Entanglement Structure
- Authors: Neil Dowling and Kavan Modi
- Abstract summary: We demand that the future state of a many-body, isolated quantum system is sensitive to past multitime operations on a small subpart of that system.
Our work paves the way to systematically study many-body dynamical phenomena like Many-Body, measurement-Lo phase transitions, and Floquet dynamics.
- Score: 0.0
- License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
- Abstract: Chaotic systems are highly sensitive to a small perturbation, and are
ubiquitous throughout biological sciences, physical sciences and even social
sciences. Taking this as the underlying principle, we construct an operational
notion for quantum chaos. Namely, we demand that the future state of a
many-body, isolated quantum system is sensitive to past multitime operations on
a small subpart of that system. By `sensitive', we mean that the resultant
states from two different perturbations cannot easily be transformed into each
other. That is, the pertinent quantity is the complexity of the effect of the
perturbation within the final state. From this intuitive metric, which we call
the Butterfly Flutter Fidelity, we use the language of multitime quantum
processes to identify a series of operational conditions on chaos, in
particular the scaling of the spatiotemporal entanglement. Our criteria already
contain the routine notions, as well as the well-known diagnostics for quantum
chaos. This includes the Peres-Loschmidt Echo, Dynamical Entropy, Tripartite
Mutual Information, and Local-Operator Entanglement. We hence present a unified
framework for these existing diagnostics within a single structure. We also go
on to quantify how several mechanisms lead to quantum chaos, such as evolution
generated from random circuits. Our work paves the way to systematically study
many-body dynamical phenomena like Many-Body Localization, measurement-induced
phase transitions, and Floquet dynamics.
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