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Entanglement Theory Quantum Correlations
Quantum Thermodynamics
Non-Abelian symmetry can increase entanglement entropy
arXiv
Authors: Shayan Majidy, Aleksander Lasek, David A. Huse, Nicole Yunger Halpern
Year
2022
Paper ID
58866
Status
Preprint
Abstract Read
~2 min
Abstract Words
137
Citations
N/A
Abstract
The pillars of quantum theory include entanglement and operators' failure to commute. The Page curve quantifies the bipartite entanglement of a many-body system in a random pure state. This entanglement is known to decrease if one constrains extensive observables that commute with each other (Abelian "charges"). Non-Abelian charges, which fail to commute with each other, are of current interest in quantum thermodynamics. For example, noncommuting charges were shown to reduce entropy-production rates and may enhance finite-size deviations from eigenstate thermalization. Bridging quantum thermodynamics to many-body physics, we quantify the effects of charges' noncommutation - of a symmetry's non-Abelian nature - on Page curves. First, we construct two models that are closely analogous but differ in whether their charges commute. We show analytically and numerically that the noncommuting-charge case has more entanglement. Hence charges' noncommutation can promote entanglement.
Why This Paper Matters
- This paper contributes to the Quantum Thermodynamics research area in the Quantum Articles archive.
- It adds a 2022 reference point for readers tracking recent quantum research.
- The pillars of quantum theory include entanglement and operators' failure to commute.
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