Wave Propagation To the Doubly Dispersive Equation and the Improved Boussinesq Equation
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Date
2024
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Springer
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Green Open Access
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Abstract
In this paper, we examine the optical solitons for the nonlinear doubly dispersive equation and the modified Boussinesq equation, which explain the flow of shallow water in a small-amplitude surface system. We realize a variety of solitons using the Sardar sub-equation approach, including bright solitons, dark solitons, singular solitons, mixed bright-singular solitons, periodic, exponential, and rational solutions. The generated optical solutions can be used to simulate water waves and the free movement of a fluid surface, both of which are important in computing models of nonlinear partial differential equations in science, engineering, and mathematical physics. For the physical interpretation of the data, the well-known symbolic software Mathematica 12 was employed.
Description
Ibrahim, Salisu/0000-0002-1467-5426
ORCID
Keywords
Doubly Dispersive Equation, Improved Boussinesq Equation, Sardar Sub-Equation Method, Optical Solitons
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Citation
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Q1
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Q2
OpenCitations Citation Count
14
Source
Optical and Quantum Electronics
Volume
56
Issue
1
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Scopus : 18
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18
checked on Feb 03, 2026
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15
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3
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4.74485385
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