K.E. Chlouverakis scite author profile

A novel photonic monolithic integrated device consisting of a distributed feedback laser, a passive resonator, and active elements that control the optical feedback properties has been designed, fabricated, and evaluated as a compact potential chaotic emitter in optical communications. Under diverse operating parameters, the device behaves in different modes providing stable solutions, periodic states, and broadband chaotic dynamics. Chaos data analysis is performed in order to quantify the complexity and chaoticity of the experimental reconstructed attractors by applying nonlinear noise filtering.

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Labyrinth Chaos

Sprott

Chlouverakis

2007

Int. J. Bifurcation Chaos

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A particularly simple and mathematically elegant example of chaos in a three-dimensional flow is examined in detail. It has the property of cyclic symmetry with respect to interchange of the three orthogonal axes, a single bifurcation parameter that governs the damping and the attractor dimension over most of the range 2 to 3 (as well as 0 and 1) and whose limiting value b = 0 gives Hamiltonian chaos, three-dimensional deterministic fractional Brownian motion, and an interesting symbolic dynamic.

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A comparison of correlation and Lyapunov dimensions

Chlouverakis

Sprott

2005

Physica D: Nonlinear Phenomena

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Optoelectronic realisation of NOR logic gate using chaotic two-section lasers

Chlouverakis

Adams

2005

Electron. Lett.

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K.E. Chlouverakis

Chaotic hyperjerk systems

Photonic Integrated Device for Chaos Applications in Communications

Labyrinth Chaos

A comparison of correlation and Lyapunov dimensions

Optoelectronic realisation of NOR logic gate using chaotic two-section lasers

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