Numerical modelling of spectral, temporal and statistical properties of Raman fiber lasers

Churkin, D.V. and Smirnov, S.V. (2012). Numerical modelling of spectral, temporal and statistical properties of Raman fiber lasers. Optics Communications, 285 (8), pp. 2154-2160.

Abstract

Efficient numerical modelling of the power, spectral and statistical properties of partially coherent quasi-CW Raman fiber laser radiation is presented. XPM between pump wave and generated Stokes wave is not important in the generation spectrum broadening and XPM term can be omitted in propagation equation what sufficiently speeds-up simulations. The time dynamics of Raman fiber laser (RFL) is stochastic exhibiting events several times more intense that the mean value on the ps timescale. However, the RFL has different statistical properties on different time scales. The probability density function of spectral power density is exponential for the generation modes located either in the spectrum centre or spectral wings while the phases are distributed uniformly. The pump wave preserves the initial Gaussian statistics during propagation in the laser cavity. Intense pulses in the pump wave are evolved under the SPM influence and are not disturbed by the dispersion. Contrarily, in the generated wave the dispersion plays a significant role that results in stochastic behavior.

Publication DOI: https://doi.org/10.1016/j.optcom.2011.12.082
Divisions: Engineering & Applied Sciences > Electrical, electronic & power engineering
Engineering & Applied Sciences > Institute of Photonics
Uncontrolled Keywords: fiber optics,partially coherent radiation,Raman fiber laser,statistical properties,Electronic, Optical and Magnetic Materials,Electrical and Electronic Engineering,Atomic and Molecular Physics, and Optics,Physical and Theoretical Chemistry
Published Date: 2012-04-15

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