DYNAMICS OF INTEGER-FRACTIONAL TIME-DERIVATIVE FOR THE NEW TWO-MODE KURAMOTO-SIVASHINSKY MODEL
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Date
2020
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Editura Acad Romane
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Abstract
In this paper, we investigate the dynamics of a nonlinear model responsible for the transition of turbulence phenomena and cellular instabilities to a chaos. The two-mode Kuramoto-Sivashinsky (TMKS) model is an example of such application. We study both integer and fractional time-derivative involved in this model. Solitary wave solutions and approximate analytical solutions will be derived to TMKS model by means of well-posed different techniques. The mechanism of the concepts of two-mode and time-fractional derivative will be discussed in this work. Finally, both 2-dimensional and 3-dimensional plots will be provided to support our findings.
Description
Alquran, Marwan/0000-0003-3901-9270; Abu Afouna, Nour Hamad/0000-0002-1944-3069
Keywords
Two-Mode Kuramoto-Sivashinsky (Tmks) Model, Kudryashov-Expansion Method, Time-Fractional Tmks, Maclaurin Series
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Citation
Ali, Mohammed ...et al. (2020). "DYNAMICS OF INTEGER-FRACTIONAL TIME-DERIVATIVE FOR THE NEW TWO-MODE KURAMOTO-SIVASHINSKY MODEL", Romanian Reports in Physics, Vol. 72, No. 1.
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Q2
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Q2
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Volume
72
Issue
1