Brillouin Instability In Fiber Lasers Doped By Power
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Date
2012-01-01
Journal Title
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Publisher
University of Eloued جامعة الوادي
Abstract
With the emergence of rare-earth doped fibers, and especially double-clad fibers, there is a renewed interest in Brillouin effect. First of all, the amplification of a continuous signal in a rare-earth doped fiber amplifier can generate high enough intensities to excite Brillouin effect and then to create a backscattered stokes wave. Such back-reflection is detrimental for amplifier applications and consequently it has been studied theoretically and experimentally. Recently, the low frequency self-pulsing instability resulting from Brillouin backscattering has been theoretically modelled [1]. Our main objective is to present a general model allowing to explain the origin of the dynamic instability arising in a fiber lasers as a consequence of Brillouin effect. The effect of Brillouin back scattering is theoretically analysed by two-coupled modes laser model. We consider the Fabry-Perot fiber laser cavity. The rich and complex dynamic behaviours are observed. In particular the quasi periodic dynamic is identified and studied.
Description
Articale in Journal of fundamental and Applied Sciences Vol. 04 N. 01
Keywords
Stimulated Brillouin Scattering; high power fiber lasers, instabilities, quasi periodic.
Citation
Articale in Journal of fundamental and Applied Sciences Vol. 04 N. 01