Population gratings in saturable optical fibers with randomly oriented rare-earth ions

Formation of the dynamic population gratings in optical fibers with randomly oriented rare-earth ions is analyzed with a special interest to the grating component for readout with the orthogonal light polarization. It is shown that as compared with a simple model case of the collinearly oriented dip...

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Bibliographic Details
Published in:Journal of Optics 2015-07, Vol.17 (7), p.75401-9
Main Authors: Stepanov, S, Martinez, L M, Hernandez, E H, Agruzov, P, Shamray, A
Format: Article
Language:English
Subjects:
Amplitudes
Anisotropy
Diffraction gratings
erbium-doped fibers
Fluorescence
Gratings (spectra)
Optical fibers
Polarization
population gratings
Rare earth metals
two-wave mixing
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Summary:Formation of the dynamic population gratings in optical fibers with randomly oriented rare-earth ions is analyzed with a special interest to the grating component for readout with the orthogonal light polarization. It is shown that as compared with a simple model case of the collinearly oriented dipole-like centers their random orientation leads to approximately 2-times growth of the effective saturation power Psat when it is estimated from the incident power dependence of the fiber absorption or from that of the fluorescence intensity. An optimal incident power, for which the maximum of the dynamic population grating amplitude for collinear light polarization is observed, also follows this change in Psat, while formation of the grating for orthogonal polarization needs essentially higher light power. The reduced anisotropy of the active centers, which is in charge of the experimentally observed weakening of the polarization hole burning (PHB) and of the fluorescence polarization, compensates in some way the effect of random ion orientation. The ratio between the maximum conventional (i.e. for the interacting waves collinear polarizations) two-wave mixing (TWM) amplitude and the initial not saturable fiber optical density proves to be, however, nearly the same as in the model case of collinearly oriented dipoles. The ratio between the PHB effect and the amplitude of the anisotropic grating, which is responsible for TWM of the orthogonally polarized waves, is also not influenced significantly by the reduced anisotropy of ions.
ISSN:2040-8978
2040-8986
1464-4258
DOI:10.1088/2040-8978/17/7/075401