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The study of solitary wave solutions to the time conformable Schrödinger system by a powerful computational technique

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Abstract

In this manuscript, we secure solitary wave solutions of the generalized (2+1)-dimensional nonlinear conformable Schrödinger (NLCS) system by employing a powerful computational technique. The reported optical solitons can be segregated as bright, dark, singular, combo bright-dark, periodic, and mixed periodic solutions. In addition, by selecting different parametric values, the physical representation of some achieved solutions is plotted in 3D, 2D, and contour graphs and verified the correctness of these solutions using Mathematica. The findings demonstrate that the examined system theoretically contains a large number of solitary wave structures. The reported results show that the proposed method is effective, concise, straightforward, powerful, and it can be used to tackle some more complex nonlinear partial differential equations in the applied sciences.

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  1. Department of Mathematics, Faculty of Science, University of Gujrat, 50700, Gujrat, Pakistan

    Shafqat Ur Rehman, Muhammad Bilal & Jamshad Ahmad

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  1. Shafqat Ur Rehman
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  2. Muhammad Bilal
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Correspondence to Jamshad Ahmad.

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Rehman, S.U., Bilal, M. & Ahmad, J. The study of solitary wave solutions to the time conformable Schrödinger system by a powerful computational technique. Opt Quant Electron 54, 228 (2022). https://doi.org/10.1007/s11082-022-03627-6

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