Strongly asymmetric square waves in a time-delayed system | Zendy

Lionel Weicker | Zendy; Thomas Erneux | Zendy; Otti D’Huys | Zendy; Jan Danckaert | Zendy; Maxime Jacquot | Zendy; Yanne K. Chembo | Zendy; Laurent Larger | Zendy

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Strongly asymmetric square waves in a time-delayed system

Author(s) -

Lionel Weicker,

Thomas Erneux,

Otti D’Huys,

Jan Danckaert,

Maxime Jacquot,

Yanne K. Chembo,

Laurent Larger

Publication year - 2012

Publication title -

physical review e

Language(s) - English

Resource type - Journals

eISSN - 1550-2376

pISSN - 1539-3755

DOI - 10.1103/physreve.86.055201

Subject(s) - square (algebra) , square wave , bifurcation , mathematics , hopf bifurcation , mathematical analysis , bifurcation diagram , physics , limit (mathematics) , nonlinear system , maxima and minima , pulse (music) , period doubling bifurcation , optics , geometry , quantum mechanics , voltage , detector

Time-delayed systems are known to exhibit symmetric square waves oscillating with a period close to twice the delay. Here, we show that strongly asymmetric square waves of a period close to one delay are possible. The plateau lengths can be tuned by changing a control parameter. The problem is investigated experimentally and numerically using a simple bandpass optoelectronic delay oscillator modeled by nonlinear delay integrodifferential equations. An asymptotic approximation of the square-wave periodic solution valid in the large delay limit allows an analytical description of its main properties (extrema and square pulse durations). A detailed numerical study of the bifurcation diagram indicates that the asymmetric square waves emerge from a Hopf bifurcation. © 2012 American Physical Society.SCOPUS: ar.jinfo:eu-repo/semantics/publishe

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