Bounded channel noise in a 5D Hodgkin-Huxley cortical pacemaker model triggers stochastic awakening via Kramers escape deep subthreshold, robust coherence resonance near subcritical Hopf, and noise-accelerated escape to high-frequency irregular bursting suprathreshold.
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Optimal minimum-dissipation networks show weak and strong symmetry breaking with discontinuous transitions from resource scaling and reentrant symmetry restoration from fluctuations.
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Noise-accelerated Kramers Escape and Coherence Resonance in a 5D Neural Manifold
Bounded channel noise in a 5D Hodgkin-Huxley cortical pacemaker model triggers stochastic awakening via Kramers escape deep subthreshold, robust coherence resonance near subcritical Hopf, and noise-accelerated escape to high-frequency irregular bursting suprathreshold.
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Symmetry breaking in minimum dissipation networks
Optimal minimum-dissipation networks show weak and strong symmetry breaking with discontinuous transitions from resource scaling and reentrant symmetry restoration from fluctuations.