Solitary Wave Solutions for the Stochastic Fractional-Space KdV in the Sense of the M-Truncated Derivative

Wael W. Mohammed; Clemente Cesarano; Farah M. Al-Askar; Mahmoud El-Morshedy

doi:10.3390/math10244792

Solitary Wave Solutions for the Stochastic Fractional-Space KdV in the Sense of the M-Truncated Derivative

Wael W. Mohammed
, Clemente Cesarano
, Farah M. Al-Askar
, Mahmoud El-Morshedy

Mathematics

Research output: Contribution to journal › Article › peer-review

16 Scopus citations

Abstract

The stochastic fractional-space Korteweg–de Vries equation (SFSKdVE) in the sense of the M-truncated derivative is examined in this article. In the Itô sense, the SFSKdVE is forced by multiplicative white noise. To produce new trigonometric, hyperbolic, rational, and elliptic stochastic fractional solutions, the tanh–coth and Jacobi elliptic function methods are used. The obtained solutions are useful in interpreting certain fascinating physical phenomena because the KdV equation is essential for understanding the behavior of waves in shallow water. To demonstrate how the multiplicative noise and the M-truncated derivative impact the precise solutions of the SFSKdVE, different 3D and 2D graphical representations are plotted.

Original language	English
Article number	4792
Journal	Mathematics
Volume	10
Issue number	24
DOIs	https://doi.org/10.3390/math10244792
State	Published - Dec 2022

Keywords

analytical solutions
fractional KdV
stability by noise
stochastic KdV

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10.3390/math10244792

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title = "Solitary Wave Solutions for the Stochastic Fractional-Space KdV in the Sense of the M-Truncated Derivative",

abstract = "The stochastic fractional-space Korteweg–de Vries equation (SFSKdVE) in the sense of the M-truncated derivative is examined in this article. In the It{\^o} sense, the SFSKdVE is forced by multiplicative white noise. To produce new trigonometric, hyperbolic, rational, and elliptic stochastic fractional solutions, the tanh–coth and Jacobi elliptic function methods are used. The obtained solutions are useful in interpreting certain fascinating physical phenomena because the KdV equation is essential for understanding the behavior of waves in shallow water. To demonstrate how the multiplicative noise and the M-truncated derivative impact the precise solutions of the SFSKdVE, different 3D and 2D graphical representations are plotted.",

keywords = "analytical solutions, fractional KdV, stability by noise, stochastic KdV",

author = "Mohammed, \{Wael W.\} and Clemente Cesarano and Al-Askar, \{Farah M.\} and Mahmoud El-Morshedy",

note = "Publisher Copyright: {\textcopyright} 2022 by the authors.",

year = "2022",

month = dec,

doi = "10.3390/math10244792",

language = "English",

volume = "10",

journal = "Mathematics",

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T1 - Solitary Wave Solutions for the Stochastic Fractional-Space KdV in the Sense of the M-Truncated Derivative

AU - Mohammed, Wael W.

AU - Cesarano, Clemente

AU - Al-Askar, Farah M.

AU - El-Morshedy, Mahmoud

PY - 2022/12

Y1 - 2022/12

N2 - The stochastic fractional-space Korteweg–de Vries equation (SFSKdVE) in the sense of the M-truncated derivative is examined in this article. In the Itô sense, the SFSKdVE is forced by multiplicative white noise. To produce new trigonometric, hyperbolic, rational, and elliptic stochastic fractional solutions, the tanh–coth and Jacobi elliptic function methods are used. The obtained solutions are useful in interpreting certain fascinating physical phenomena because the KdV equation is essential for understanding the behavior of waves in shallow water. To demonstrate how the multiplicative noise and the M-truncated derivative impact the precise solutions of the SFSKdVE, different 3D and 2D graphical representations are plotted.

AB - The stochastic fractional-space Korteweg–de Vries equation (SFSKdVE) in the sense of the M-truncated derivative is examined in this article. In the Itô sense, the SFSKdVE is forced by multiplicative white noise. To produce new trigonometric, hyperbolic, rational, and elliptic stochastic fractional solutions, the tanh–coth and Jacobi elliptic function methods are used. The obtained solutions are useful in interpreting certain fascinating physical phenomena because the KdV equation is essential for understanding the behavior of waves in shallow water. To demonstrate how the multiplicative noise and the M-truncated derivative impact the precise solutions of the SFSKdVE, different 3D and 2D graphical representations are plotted.

KW - analytical solutions

KW - fractional KdV

KW - stability by noise

KW - stochastic KdV

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DO - 10.3390/math10244792

M3 - Article

AN - SCOPUS:85144683739

SN - 2227-7390

VL - 10

JO - Mathematics

JF - Mathematics

IS - 24

M1 - 4792

ER -

Solitary Wave Solutions for the Stochastic Fractional-Space KdV in the Sense of the M-Truncated Derivative

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Keywords

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