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Optical soliton solutions of the thin-film ferro-electric materials equation according to the Painlevé approach

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Abstract

In this article, the Paul-Painlevé approach which is a new important technique that has been discovered recently and gives surprise results is used to achieve the optical soliton solutions of the thin-film ferro-electric materials equation. The obtained results which haven’t been achieved before by using any other methods can be considered as a benchmark against the numerical solutions achieved by any numerical method.

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Acknowledgements

The authors are grateful to the anonymous referee for careful checking of the details and for helpful comments that improved this paper.

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There is no any funding interest.

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Authors and Affiliations

  1. Neighbourhood of Akcaglan, Imarli Street, Number: 28/4, 26030, Eskisehir, Turkey

    Ahmet Bekir

  2. Departments of Mathematical and Physical Engineering, Faculty of Engineering, Benha University, Shubra, Egypt

    Emad H. M. Zahran

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  1. Ahmet Bekir
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  2. Emad H. M. Zahran
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All parts contained in this research carried out by the researcher through hard work and a review of the various references and contributions in the field of mathematics, physics. It represents the research work of the author.

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Correspondence to Ahmet Bekir.

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Bekir, A., Zahran, E.H.M. Optical soliton solutions of the thin-film ferro-electric materials equation according to the Painlevé approach. Opt Quant Electron 53, 118 (2021). https://doi.org/10.1007/s11082-021-02754-w

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