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Influence of Birefringence on the Stability of Optical Soliton Pulses over Non-Linear Regime


Affiliations
1 Guru Nanak Dev University, RC, Gurdaspur, Punjab, India
 

The main objective of this paper is to represent the analytical solutions gleaned for the propagation of the soliton pulses through a birefringent optical fiber by using Split Step Fourier Transform(SSFT). For 631.72km long fiber, the time delay of 200 and 400ps is observed between the X and Y polarization components which are generated due to birefringence properties, when the linearly polarized pulse is introduced into the non-linear fiber at an angle of 45° to the polarization axes. The Kerr non-linearity not only stabilizes the soliton spreading due to group velocity dispersion (GVD) but also maintains the level against spreading due to birefringence. The similar circumference occurs for birefringent walk-off distance. Further, it is observed that polarization components of soliton pulses move withcommon group velocity when X and Y components acquire blue and red shift respectively. This evolution scenario takes place in contrast with polarization mode dispersion (PMD) over a non-linear regime for a fiber length of 631.72 and 1264.344km with θ=30°. The results are in direct proportion to the cross phase modulation (XPM) over two polarization components.

Keywords

Solitons, Birefringent Fibers, GVD.
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  • Influence of Birefringence on the Stability of Optical Soliton Pulses over Non-Linear Regime

Abstract Views: 181  |  PDF Views: 2

Authors

Suruchi Bala
Guru Nanak Dev University, RC, Gurdaspur, Punjab, India
Anu Sheetal
Guru Nanak Dev University, RC, Gurdaspur, Punjab, India

Abstract


The main objective of this paper is to represent the analytical solutions gleaned for the propagation of the soliton pulses through a birefringent optical fiber by using Split Step Fourier Transform(SSFT). For 631.72km long fiber, the time delay of 200 and 400ps is observed between the X and Y polarization components which are generated due to birefringence properties, when the linearly polarized pulse is introduced into the non-linear fiber at an angle of 45° to the polarization axes. The Kerr non-linearity not only stabilizes the soliton spreading due to group velocity dispersion (GVD) but also maintains the level against spreading due to birefringence. The similar circumference occurs for birefringent walk-off distance. Further, it is observed that polarization components of soliton pulses move withcommon group velocity when X and Y components acquire blue and red shift respectively. This evolution scenario takes place in contrast with polarization mode dispersion (PMD) over a non-linear regime for a fiber length of 631.72 and 1264.344km with θ=30°. The results are in direct proportion to the cross phase modulation (XPM) over two polarization components.

Keywords


Solitons, Birefringent Fibers, GVD.