The review summarizes evidence for a crossover to many-body localization in finite quantum systems like the XXZ model and notes its potential link to quantum computing.
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Quantum chaotic dynamics with positive entropy production universally links to von Neumann entropy and noise modeling in quantum information processing.
Eigenstate thermalization explains why isolated quantum systems thermalize by showing that their energy eigenstates behave like thermal states, motivated by random matrix theory.
The paper reviews properties of neutrino billiards for integrable and chaotic shapes as models of relativistic quantum chaos and discusses graphene-based experimental realizations.
citing papers explorer
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Many-body localization
The review summarizes evidence for a crossover to many-body localization in finite quantum systems like the XXZ model and notes its potential link to quantum computing.
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Quantum Chaos and Quantum Information: Interactions and Implications
Quantum chaotic dynamics with positive entropy production universally links to von Neumann entropy and noise modeling in quantum information processing.
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Eigenstate thermalization
Eigenstate thermalization explains why isolated quantum systems thermalize by showing that their energy eigenstates behave like thermal states, motivated by random matrix theory.
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Relativistic Quantum Chaos in Neutrino Billiards
The paper reviews properties of neutrino billiards for integrable and chaotic shapes as models of relativistic quantum chaos and discusses graphene-based experimental realizations.