Abstract
The possibility of employment of the method of polarization components for description of the process of polarized radiation generation in nonlinear media has been theoretically substantiated. On the assumption that polarization components are statistically independent the dynamic equations for their phase, amplitude and intensity have been derived. An analysis of the solutions of these equations for a simple model of a dye laser showed that the equations derived correctly describe the influence of luminescence processes on the character of laser radiation formation. It is shown that the method proposed gives new results for the near-threshold pumping energy region.
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References
M. Born and E. Wolf, Fundamentals of Optics [Russian translation], G. P. Motulevich (ed.), Moscow (1974).
P. A. Apanasevich, Principles of the Theory of the Interaction of Light with Matter [in Russian], Minsk (1977)
Yu. P. Svirko and N. I. Zheludev, Phys. Rev. A.,50, 709–713 (1994).
O. I. Yaroshenko, Kvant. Élektron.,10, 2288–2299 (1983).
D. Lenstra, Phys. Rep.,59, 299–373 (1980).
K. C. Reyzer and L. W. Casperson, J. Appl. Phys.,51, 6075–6090 (1980).
L. I. Burov, A. V. Zhvalevskii, A. P. Klishchenko, I. N. Kozlov, and A. P. Listopad, Zh. Prikl. Spektrosk.,52, 108–113 (1993).
F. P. Shefer (ed.), Dye Lasers [in Russian], Moscow (1976).
S. P. Zeiger, Yu. L. Klimontovich, P. S. Landa, E. G. Larionov, and É. V. Fradkin, Wave and Fluctuation Processes in Lasers [in Russian], Yu. L. Klimontovich (ed.), Moscow (1974).
S. A. Akhmanov, Yu. E. D’yakov, and A. S. Chirkin, Introduction to Statistical Radiophysics and Optics, Moscow (1981).
J. S. Almeida, Solar Physics,137, 1–14 (1992).
L. I. Burov, A. V. Zhvalevskii, A. P. Klishchenko, I. N. Kozlov, and A. P. Listopad, Vestn. BGU, Ser. 1, No. 1, 6–9 (1993).
J. J. Song, J. H. Lee, and M. D. Levenson, Polarization Spectroscopy of Condensed Phases, in: Proceedings of the 3rd Int. Conf. “Laser Spectroscopy 3”, Wyo, Berlin (1977), p. 450.
V. A. Gaisenok, V. V. Gruzinskii, and G. G. Krylov, Influence of Rotational Diffusion of Molecules on the Characteristics of Stimulated Radiation of Dye Solutions [in Russian], Preprint, Institute of Physics of the Academy of Sciences of Belarus, No. 498, Minsk (1988).
B. I. Stepanov and V. P. Gribkovskii, Introduction to the Theory of Luminescence [in Russian], Minsk (1963).
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Belarusian State University, 4, F. Skorina Ave., Minsk, 220050, Belarus. Translated from Zhurnal Prikladnoi Spektroskopii, Vol. 64, No. 5, pp. 595–602, September–October, 1997.
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Burov, L.I., Klishchenko, A.P. & Listopad, A.P. Generalized method of description of the process of polarized radiation generation in dye lasers. J Appl Spectrosc 64, 607–615 (1997). https://doi.org/10.1007/BF02675320
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DOI: https://doi.org/10.1007/BF02675320