Fundamental solutions for the conformable time fractional phi-4 and space-time fractional simplified mch equations

Mahmoud A.E. Abdelrahman; S. Z. Hassan; R. A. Alomair; D. M. Alsaleh

doi:10.3934/math.2021386

Fundamental solutions for the conformable time fractional phi-4 and space-time fractional simplified mch equations

Mahmoud A.E. Abdelrahman^*
, S. Z. Hassan
, R. A. Alomair
, D. M. Alsaleh

^*Corresponding author for this work

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

19 Scopus citations

Abstract

We construct new solitary structures for time fractional Phi-4 and space-time fractional simplified modified Camassa-Holm (MCH) equations, utilizing the unified solver technique. The time (space-time) fractional derivatives are defined via sense of the new conformable fractional derivative. The unified solver technique extract vital solutions in explicit way. The obtained solutions may be beneficial for explaining many complex phenomena arising in fluid mechanics, nuclear, plasma and particle physics. The unified solver method is a vital tool for handling further models arising in applied science and new physics. For detailed physical dynamical representation of our results, 3D and 2D profiles to some of the gained solutions are also illustrated using Matlab software.

Original language	English
Pages (from-to)	6555-6568
Number of pages	14
Journal	AIMS Mathematics
Volume	6
Issue number	6
DOIs	https://doi.org/10.3934/math.2021386
State	Published - 2021

Keywords

Conformable derivative
Fractional MCH equation
Fractional Phi-4 equation
Physical applications
Solitons
Unified solver method

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10.3934/math.2021386

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title = "Fundamental solutions for the conformable time fractional phi-4 and space-time fractional simplified mch equations",

abstract = "We construct new solitary structures for time fractional Phi-4 and space-time fractional simplified modified Camassa-Holm (MCH) equations, utilizing the unified solver technique. The time (space-time) fractional derivatives are defined via sense of the new conformable fractional derivative. The unified solver technique extract vital solutions in explicit way. The obtained solutions may be beneficial for explaining many complex phenomena arising in fluid mechanics, nuclear, plasma and particle physics. The unified solver method is a vital tool for handling further models arising in applied science and new physics. For detailed physical dynamical representation of our results, 3D and 2D profiles to some of the gained solutions are also illustrated using Matlab software.",

keywords = "Conformable derivative, Fractional MCH equation, Fractional Phi-4 equation, Physical applications, Solitons, Unified solver method",

author = "Abdelrahman, \{Mahmoud A.E.\} and Hassan, \{S. Z.\} and Alomair, \{R. A.\} and Alsaleh, \{D. M.\}",

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year = "2021",

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journal = "AIMS Mathematics",

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T1 - Fundamental solutions for the conformable time fractional phi-4 and space-time fractional simplified mch equations

AU - Abdelrahman, Mahmoud A.E.

AU - Hassan, S. Z.

AU - Alomair, R. A.

AU - Alsaleh, D. M.

PY - 2021

Y1 - 2021

N2 - We construct new solitary structures for time fractional Phi-4 and space-time fractional simplified modified Camassa-Holm (MCH) equations, utilizing the unified solver technique. The time (space-time) fractional derivatives are defined via sense of the new conformable fractional derivative. The unified solver technique extract vital solutions in explicit way. The obtained solutions may be beneficial for explaining many complex phenomena arising in fluid mechanics, nuclear, plasma and particle physics. The unified solver method is a vital tool for handling further models arising in applied science and new physics. For detailed physical dynamical representation of our results, 3D and 2D profiles to some of the gained solutions are also illustrated using Matlab software.

AB - We construct new solitary structures for time fractional Phi-4 and space-time fractional simplified modified Camassa-Holm (MCH) equations, utilizing the unified solver technique. The time (space-time) fractional derivatives are defined via sense of the new conformable fractional derivative. The unified solver technique extract vital solutions in explicit way. The obtained solutions may be beneficial for explaining many complex phenomena arising in fluid mechanics, nuclear, plasma and particle physics. The unified solver method is a vital tool for handling further models arising in applied science and new physics. For detailed physical dynamical representation of our results, 3D and 2D profiles to some of the gained solutions are also illustrated using Matlab software.

KW - Conformable derivative

KW - Fractional MCH equation

KW - Fractional Phi-4 equation

KW - Physical applications

KW - Solitons

KW - Unified solver method

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DO - 10.3934/math.2021386

M3 - Article

AN - SCOPUS:85104107676

SN - 2473-6988

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EP - 6568

JO - AIMS Mathematics

JF - AIMS Mathematics

IS - 6

ER -

Fundamental solutions for the conformable time fractional phi-4 and space-time fractional simplified mch equations

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Keywords

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