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Parabolic approximation in Kleinman's mechanical approach to laser spiking analysis
ARTICLE

Journal of Applied Research and Technology Volume 14, Number 3, ISSN 1665-6423 Publisher: Elsevier Ltd

Abstract

Spiking patterns observed at the output of lasers have been widely used to predict their dynamic behavior. The light output of a laser was associated with the coordinate of a particle moving in a potential well by Kleinman (1964). In this paper, this mechanical analogy is revisited so as to investigate a new approximation which might greatly simplify the relationships that determine the rate equations’ parameters. A ruby laser numerical example is presented to highlight the consistency of the proposed approximation near the equilibrium point.

Citation

Sánchez-León, J.A. (2016). Parabolic approximation in Kleinman's mechanical approach to laser spiking analysis. Journal of Applied Research and Technology, 14(3), 191-194. Elsevier Ltd. Retrieved November 28, 2021 from .

This record was imported from Journal of Applied Research and Technology on January 29, 2019. Journal of Applied Research and Technology is a publication of Elsevier.

Full text is availabe on Science Direct: http://dx.doi.org/10.1016/j.jart.2016.05.005

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