Extreme mixed-mode oscillatory bursts in the Helmholtz-Duffing oscillator

TL;DR

This paper identifies and characterizes a new type of extreme irregular mixed-mode oscillatory burst in a driven Helmholtz-Duffing oscillator, highlighting the role of nonlinearities, asymmetry, and velocity as a predictive indicator.

Contribution

It introduces a novel extreme event type in the Helmholtz-Duffing oscillator, analyzing its origin, statistical properties, and predictive velocity-based indicator.

Findings

Extreme irregular mixed-mode oscillatory bursts are observed.

The events follow a generalized extreme value distribution.

Velocity serves as a reliable lead indicator for these events.

Abstract

We report a new type of extreme event - extreme irregular mixed-mode oscillatory burst - appearing in an asymmetric double-welled, driven Helmholtz-Duffing oscillator. The interplay of cubic and quadratic nonlinearities in the system, along with the external drive, contributes to this type of unusual extreme event. These extreme events are classified using the peak-over threshold method and found to be well-fitted with the generalized extreme value distribution. The asymmetry in the depth of one of the potential wells allows the oscillator to exhibit rare irregular mixed-mode oscillations between the two wells, manifesting as extremely irregular mixed-mode oscillatory bursts. Furthermore, we also find that such an irregular transition between the two potential wells occurs during the up phase of the periodic external drive. Importantly, we also find that the system velocity can be tracked and utilized as a reliable lead indicator of the occurrence of this novel type of extreme event.