Add to ORKGWe report the discovery of a remarkable ‘‘periodicity hub’’ inside the chaotic phase of an electronic circuit containing two diodes as a nonlinear resistance. The hub is a focal point from where an infinite hierarchy of nested spirals emanates. By suitably tuning two reactances simultaneously, both current and voltage may have their periodicity increased continuously without bound and without ever crossing the surrounding chaotic phase. Familiar period-adding current and voltage cascades are shown to be just restricted one-parameter slices of an exceptionally intricate and very regular onionlike parameter surface centered at the focal hub which organizes all the dynamics
Infinite cascades of periodicity hubs were predicted and very recently observed experimentally to or...
Abstract—In this study, two chaotic circuits coupled by a time-varying resistor are investigated. We...
Chaos is aperiodic behavior in deterministic nonlinear dynamical systems that is highly sensitive to...
We report the discovery of a remarkable ‘‘periodicity hub’’ inside the chaotic phase of an electroni...
AbstractThis Letter reports phase diagrams quantifying and contrasting the dynamical performance of ...
We report the experimental discovery of a remarkable organization of the set of self-generated perio...
Antiperiodic oscillations forming infinite cascades of spirals were recently found experimentally an...
The investigation of regular and irregular patterns in nonlinear oscillators is an outstanding probl...
We report a detailed numerical investigation of a prototype electrochemical oscillator, in terms of ...
Abstract-Linear system theory provides an inadequate char-acterization of sustained oscillation in n...
This poster explores and documents the nonlinear behavior exhibited by a sinusoidal driven serial ci...
Our current understanding of routes to chaos is mainly based on torus bifurcation where new periods ...
Abstract—There are many studies about coupled chaotic circuits. In these studies, various kinds of i...
The effect of an external sinusoidal signal on the familiar Chua's piecewise-linear autonomous circu...
Abstract Recently, studies on phase synchronization phenomena of coupled chaotic oscillators are ext...
Infinite cascades of periodicity hubs were predicted and very recently observed experimentally to or...
Abstract—In this study, two chaotic circuits coupled by a time-varying resistor are investigated. We...
Chaos is aperiodic behavior in deterministic nonlinear dynamical systems that is highly sensitive to...
We report the discovery of a remarkable ‘‘periodicity hub’’ inside the chaotic phase of an electroni...
AbstractThis Letter reports phase diagrams quantifying and contrasting the dynamical performance of ...
We report the experimental discovery of a remarkable organization of the set of self-generated perio...
Antiperiodic oscillations forming infinite cascades of spirals were recently found experimentally an...
The investigation of regular and irregular patterns in nonlinear oscillators is an outstanding probl...
We report a detailed numerical investigation of a prototype electrochemical oscillator, in terms of ...
Abstract-Linear system theory provides an inadequate char-acterization of sustained oscillation in n...
This poster explores and documents the nonlinear behavior exhibited by a sinusoidal driven serial ci...
Our current understanding of routes to chaos is mainly based on torus bifurcation where new periods ...
Abstract—There are many studies about coupled chaotic circuits. In these studies, various kinds of i...
The effect of an external sinusoidal signal on the familiar Chua's piecewise-linear autonomous circu...
Abstract Recently, studies on phase synchronization phenomena of coupled chaotic oscillators are ext...
Infinite cascades of periodicity hubs were predicted and very recently observed experimentally to or...
Abstract—In this study, two chaotic circuits coupled by a time-varying resistor are investigated. We...
Chaos is aperiodic behavior in deterministic nonlinear dynamical systems that is highly sensitive to...