Extending ray-wave correspondence to phase space provides deeper insight into quantum chaos in mesoscopic systems by incorporating both position and momentum information.
Heller,Bound-state eigenfunctions of classically chaotic hamiltonian systems: Scars of periodic orbits,Phys
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Quantum chaotic dynamics with positive entropy production universally links to von Neumann entropy and noise modeling in quantum information processing.
The chapter reviews standard Hamiltonian chaos concepts including surfaces of section, stability analysis, symbolic dynamics, geometry of chaos, perturbation response, and complexification, with emphasis on intuitive illustrations for quantum chaos applications.
citing papers explorer
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Quantum Chaos in Phase Space
Extending ray-wave correspondence to phase space provides deeper insight into quantum chaos in mesoscopic systems by incorporating both position and momentum information.
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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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Hamiltonian Chaos
The chapter reviews standard Hamiltonian chaos concepts including surfaces of section, stability analysis, symbolic dynamics, geometry of chaos, perturbation response, and complexification, with emphasis on intuitive illustrations for quantum chaos applications.