Abstract
AbstractIn this paper, we characterize the chaos in the Duffing equation with negative linear stiffness and a fractional damping term given by a Caputo fractional derivative of order $$\alpha $$
α
ranging from 0 to 2. We use two different numerical methods to compute the solutions, one of them new. We discriminate between regular and chaotic solutions by means of the attractor in the phase space and the values of the Lyapunov Characteristic Exponents. For this, we have extended a linear approximation method to this equation. The system is very rich with distinct behaviours. In the limits $$\alpha $$
α
to 0 or $$\alpha $$
α
to 2, the system tends to basically the same undamped system with a behaviour clearly different from the classical Duffing equation.
Funder
Ministère de l’Enseignement Supérieur et de la Recherche Scientifique, People’s Democratic Republic of Algeria.
Universidad Politécnica de Madrid
Publisher
Springer Science and Business Media LLC
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