Stokes parameters of phase-locked partially coherent flat-topped array laser beams propagating through turbulent atmosphere

In this study, generalized Stokes parameters of a phase-locked partially coherent flat-topped array beam based on the extended Huygens-Fresnel principle and the unified theory of coherence and polarization have been reported. Analytical formulas for 2  ×  2 cross-spectral density matrix elements, an...

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Bibliographic Details
Published in:Laser physics 2016-06, Vol.26 (6), p.66201
Main Authors: Golmohammady, Sh, Ghafary, B
Format: Article
Language:English
Subjects:
partially coherent flat-topped array beam
Stokes parameters
the spectral degree of coherence
the spectral degree of polarization
turbulent atmosphere
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Summary:In this study, generalized Stokes parameters of a phase-locked partially coherent flat-topped array beam based on the extended Huygens-Fresnel principle and the unified theory of coherence and polarization have been reported. Analytical formulas for 2  ×  2 cross-spectral density matrix elements, and consequently Stokes parameters of a phase-locked partially coherent flat-topped array beam propagating through the turbulent atmosphere have been formulated. Effects of many physical attributes such as wavelength, turbulence strength, flatness order and other source parameters on the Stokes parameters, and therefore spectral degree of polarization upon propagation have been studied thoroughly. The behaviour of the spectral degree of coherence of a delineated beam for different source conditions has been investigated. It can be shown that four generalized Stokes parameters increase by raising the flatness order at the same propagation distance. Increasing the number of beams leads to a decrease in the Stokes parameters to zero slowly. The results are of utmost importance for optical communications.
ISSN:1054-660X
1555-6611
DOI:10.1088/1054-660X/26/6/066201