Tuning a chaos parameter drives an exceptional-point transition in reset-driven Floquet channel spectra from real eigenvalues in an ergodic regime to complex pairs in a chaotic regime, distinguishing multiple dynamical phases.
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Incommensurability in a 1D quasiperiodic model enhances superconductivity by raising Tc and replacing BCS exponential scaling with algebraic scaling in the critical and localized phases.
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Chaos Emerge with Exceptional Points in Reset-Driven Floquet Dynamics
Tuning a chaos parameter drives an exceptional-point transition in reset-driven Floquet channel spectra from real eigenvalues in an ergodic regime to complex pairs in a chaotic regime, distinguishing multiple dynamical phases.
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Incommensurability-Induced Enhancement of Superconductivity in One Dimensional Critical Systems
Incommensurability in a 1D quasiperiodic model enhances superconductivity by raising Tc and replacing BCS exponential scaling with algebraic scaling in the critical and localized phases.