Dynamical behavior of water wave phenomena for the 3D fractional WBBM equations using rational sine-Gordon expansion method

Mamun, Abdulla-Al-; Lu, Chunhui; Ananna, Samsun Nahar; Uddin, Md Mohi

doi:10.1038/s41598-024-55215-1

Sci Rep

2024

DOI: 10.1038/s41598-024-55215-1

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Dynamical behavior of water wave phenomena for the 3D fractional WBBM equations using rational sine-Gordon expansion method

Abdulla-Al- Mamun,

Chunhui Lu,

Samsun Nahar Ananna

et al.

Abstract: To examine the dynamical behavior of travelling wave solutions of the water wave phenomenon for the family of 3D fractional Wazwaz-Benjamin-Bona-Mahony (WBBM) equations, this work employs the rational Sine-Gordon expansion (RSGE) approach based on the conformable fractional derivative. The method generalizes the well-known sine-Gordon expansion using the sine-Gordon equation as an auxiliary equation. In contrast to the conventional sine-Gordon expansion method, it takes a more general approach, a rational func… Show more

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Cited by 5 publications

References 58 publications

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The influence of fractionality and unconstrained parameters on mathematical and graphical analysis of the time fractional phi-four model

Abdulla-Al-Mamun,

Lu,

Ananna

et al. 2024

Chaos, Solitons & Fractals

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The influence of fractionality and unconstrained parameters on mathematical and graphical analysis of the time fractional phi-four model

Abdulla-Al-Mamun,

Lu,

Ananna

et al. 2024

Chaos, Solitons & Fractals

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Investigation of the new optical soliton solutions to the (2+1)-dimensional calogero-bogoyavlenskii schiff model

Baloch,

Abbas,

Iqbal

et al. 2024

Sci Rep

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In this work, we use the ansatz transformation functions to investigate different analytical rational solutions by symbolic computation. For the (2+1)-dimensional Calogero-Bogoyavlenskii Schiff (CBS) model, we derive a variety of rational solutions, such as homoclinic breather solutions (HBs), M-shaped rational solutions (MSRs), periodic cross-rationals (PCRs), multi-wave solutions (MWs), and kink cross-rational solutions (KCRs). Their dynamic is shown in figures by selecting appropriate values for the pertinent parameters. The Calogero-Bogoyavlenskii-Schiff model describes the interface of Riemann waves in two spatial dimensions. The Riemann wave can be used to explain a wide range of physical phenomena, including internal ocean waves, tsunamis, tidal waves, and magneto-sound waves in plasmas.In addition, two different types of interactions between kink waves and M-shaped rational solutions are studied. The proposed model plays a crucial role in elucidating the internal structure of tangible composite phenomena in several fields such as nonlinear optics, wave behaviors in deep seas, plasma physics, and two-dimensional discrete electrical lattices. In order to verify the physical properties of the established solitons, we use constant parameter values to create 3D, 2D, and contour profiles of the solutions.

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A hybrid yang transform adomian decomposition method for solving time-fractional nonlinear partial differential equation

Bekela,

Deresse

2024

BMC Res Notes

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Nonlinear time-fractional partial differential equations (NTFPDEs) play a great role in the mathematical modeling of real-world phenomena like traffic models, the design of earthquakes, fractional stochastic systems, diffusion processes, and control processing. Solving such problems is reasonably challenging, and the nonlinear part and fractional operator make them more problematic. Thus, developing suitable numerical methods is an active area of research. In this paper, we develop a new numerical method called Yang transform Adomian decomposition method (YTADM) by mixing the Yang transform and the Adomian decomposition method for solving NTFPDEs. The derivative of the problem is considered in sense of Caputo fractional order. The stability and convergence of the developed method are discussed in the Banach space sense. The effectiveness, validity, and practicability of the method are demonstrated by solving four examples of NTFPEs. The findings suggest that the proposed method gives a better solution than other compared numerical methods. Additionally, the proposed scheme achieves an accurate solution with a few numbers of iteration, and thus the method is suitable for handling a wide class of NTFPDEs arising in the application of nonlinear phenomena.

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Dynamical behavior of water wave phenomena for the 3D fractional WBBM equations using rational sine-Gordon expansion method

Cited by 5 publications

References 58 publications

The influence of fractionality and unconstrained parameters on mathematical and graphical analysis of the time fractional phi-four model

The influence of fractionality and unconstrained parameters on mathematical and graphical analysis of the time fractional phi-four model

Investigation of the new optical soliton solutions to the (2+1)-dimensional calogero-bogoyavlenskii schiff model

A hybrid yang transform adomian decomposition method for solving time-fractional nonlinear partial differential equation

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