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New analytical solutions and modulation instability analysis for the nonlinear (1+1)-dimensional Phi-four model

Boubekeur Gasmi

Boubekeur Gasmi

Higher School of Management and Digital EconomyAlgeria
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Gasmi, Boubekeur
, 
Armando Ciancio

Armando Ciancio

Department of Biomedical and Dental Sciences and Morphofunctional Imaging, University of MessinaMessina, Italy
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Ciancio, Armando
, 
Alaaeddin Moussa

Alaaeddin Moussa

Department of Management Information System and Production Management, College of Business and Economics, Qassim UniversitySaudi Arabia
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Moussa, Alaaeddin
, 
Lama Alhakim

Lama Alhakim

Department of Management Information System and Production Management, College of Business and Economics, Qassim UniversitySaudi Arabia
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Alhakim, Lama
 and 
Yazid Mati

Yazid Mati

Department of Management Information System and Production Management, College of Business and Economics, Qassim UniversitySaudi Arabia
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Mati, Yazid
  
Jun 09, 2023
New analytical solutions and modulation instability analysis for the nonlinear (1+1)-dimensional Phi-four model's Cover Image
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Published Online: Jun 09, 2023
Page range: 79 - 90
Received: May 03, 2023
Accepted: Jun 01, 2023
DOI: https://doi.org/10.2478/ijmce-2023-0006
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© 2023 Boubekeur Gasmi et al., published by Sciendo
This work is licensed under the Creative Commons Attribution 4.0 International License.

This paper deals with the nonlinear (1+1)-dimensional Phi-four equation in the sense of the Katugampola operator, which can be used to model a variety of real-world applications. To solve this equation, we propose a generalized double auxiliary equation method that yields several new exact solutions. We also use linear stability analysis to discuss the instability modulation analysis for stationary solutions. Other partial differential equations can have their exact solutions found using the proposed methodology.

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