Coupling scheme for complete synchronization of periodically forced chaotic CO2 lasers

Year: 2004

Authors: Marino I.P., Allaria E., Sanjuan M.A.F., Meucci R., Arecchi F.T.

Autors Affiliation: Nonlinear Dynamics and Chaos Group, Departamento de Matematicas y Fisica Aplicadas y Ciencias Naturaleza, Universidad Rey Juan Carlos, Tulipan s/n, 28933 Mostoles, Madrid, Spain;
Istituto Nazionale di Ottica Applicata, Largo E. Fermi 6, 50125 Firenze, Italy;
Department of Physics, University of Florence, Firenze, Italy

Abstract: We present a way of coupling two nonautonomous, periodically forced, chaotic CO2 lasers in a master-slave configuration in order to achieve complete synchronization. The method consists of modulating the forcing of the slave laser by means of the difference between the intensities of the two lasers, and lends itself to a simple physical implementation. Experimental evidence of complete synchronization induced by a suitable coupling strength is shown, and a numerical model is used to achieve further insight of the synchronization phenomena. Finally, we describe a possible application of the investigated technique to the design of a digital communication system.

Journal/Review: PHYSICAL REVIEW E

Volume: 70 (3)      Pages from: 036208-1  to: 036208-8

More Information: The authors are grateful to S. Boccaletti, I. Bove, and I. Leyva for useful discussions. I.P.M. and M.A.F.S. wish to acknowledge financial support by an Acción Integrada Hispano-Italiana under Project No. HI2001-0110, by the Spanish Ministry of Science and Technology under Project Nos. BFM2000-0967 and BFM2003-03081, and by the Universidad Rey Juan Carlos under Project Nos. URJC-PIGE-02-04 and URJC-GCO-2003-16. E.A., F.T.A., and R.M. acknowledge Azione Integrata Italia-Spagna IT-853; E.A. acknowledges financial support of MIUR-FIRB Contract No. RBNE01CW3M_001.
KeyWords: Amplitude modulation; Bifurcation (mathematics); Cathode ray oscilloscopes; Chaos theory; Differential equations; Digital communication systems; Light modulators; Light reflection; Mathematical models; Relaxation processes; Synchronization; Waveform analysis, Bifurcation diagrams; Chaotic synchronization; Master-slave configuration; Numerical models, Carbon dioxide lasers
DOI: 10.1103/PhysRevE.70.036208

Citations: 11
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