Abstract
In the present work, influence of third-order dispersion (TOD) on phase change properties of two-soliton model is numerically and analytically investigated. Using perturbation theory approach and split-step Fourier transform, phase characteristics of two solitons pulse are evolved and solved by nonlinear Schrodinger’s equation. Each phase variation in the form of temporal shift under the base of third-order dispersion is also numerically devoted using the moments equation. As a result, it was found that the shift of soliton pulse mainly depends on third-order dispersion parameter β3. With the good agreement between analytical and numerical analysis, the impact of TOD has realized in a single channel telecommunication system.
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The first and fourth authors as Udaiyakumar and Mani Rajan have given their valuable support to complete the analytical part. The second and third authors as Ben Ali and Bhupeshwaran have made their attempt successfully in the simulation part. The fifth and sixth authors as Amiri and Yupapin have written the paper and have organized the sections.
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Udaiyakumar, R., Ali, N.B., Naicker, B.M. et al. Analytical and numerical demonstration of phase characteristics on two solitons under the influence of third-order dispersion. Opt Quant Electron 51, 163 (2019). https://doi.org/10.1007/s11082-019-1879-8
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DOI: https://doi.org/10.1007/s11082-019-1879-8