In open quantum systems, environmental coupling turns deterministic Krylov phase-space trajectories into stochastic ones by adding diffusion, destroying the hyperbolic mechanism for exponential complexity growth beyond a controlled scale.
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Chaotic billiard lasers manifest chaos-assisted tunneling as chaos-assisted light emission, supported by a derivation of Maxwell-Bloch equations applied to stadium-shaped cavities that links gain media to chaotic wave dynamics.
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Stochastic Krylov Dynamics: Revisiting Operator Growth in Open Quantum Systems
In open quantum systems, environmental coupling turns deterministic Krylov phase-space trajectories into stochastic ones by adding diffusion, destroying the hyperbolic mechanism for exponential complexity growth beyond a controlled scale.
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Chaotic Billiard Lasers
Chaotic billiard lasers manifest chaos-assisted tunneling as chaos-assisted light emission, supported by a derivation of Maxwell-Bloch equations applied to stadium-shaped cavities that links gain media to chaotic wave dynamics.