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For high day/night phase ratios, a saddle-node bifurcation marks the upper boundary of entrainment; but at low day/night ratios, the system undergoes a period-doubling bifurcation (both the stable and the unstable branch). This means that the circadian neurons will return to the same state after two forcing periods.
Jan 26, 2023
Aug 23, 2022 · In this work, we study a modern computational neuroscience model to determine the limits of circadian synchronization to external light signals ...
In this work, we computationally determine the limits of circadian synchronization to external light signals of different frequency, duty cycle, and simulated ...
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Jan 1, 2023 · Misalignment of intrinsic neuronal oscillations with the external day-night cycle can disrupt such processes and lead to numerous disorders. In ...
In this work, we study a modern computational neuroscience model to determine the limits of circadian synchronization to external light signals of different ...
In this work, we study a state-of-the-art computational neuroscience model [2] to determine, using modern scientific computing algorithms, the limits of ...
In this work, we study a modern computational neuroscience model to determine the limits of circadian synchronization to external light signals of different ...
Misalignment of intrinsic neuronal oscillations with the external day–night cycle can disrupt such processes and lead to numerous disorders. In this work, we ...
This work was aimed at computationally exploring the limits of entrainment of circadian neurons and circadian neuronal networks. We employ modern techniques ...
Misalignment of intrinsic neuronal oscillations with the external day–night cycle can disrupt such processes and lead to numerous disorders. In this work, we ...