Research PaperNo Access

Analytical soliton solutions for cold bosonic atoms (CBA) in a zigzag optical lattice model employing efficient methods

Loubna Ouahid

Physics Department, College of Science, University of Bisha, P. O. Box 344, Bisha 61922, Kingdom of Saudi Arabia

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M. A. Abdou

Physics Department, College of Science, University of Bisha, P. O. Box 344, Bisha 61922, Kingdom of Saudi Arabia

Theoretical Research Group, Physics Department, Faculty of Science, Mansoura University, 35516 Mansoura, Egypt

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, and

Sachin Kumar

Department of Mathematics, Faculty of Mathematical Sciences, University of Delhi, Delhi 110007, India

E-mail Address: sachinambariya@gmail.com

Corresponding author.

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https://doi.org/10.1142/S021798492150603XCited by:20 (Source: Crossref)

Abstract

This research finds an equation in a continuous domain and a discrete equation governing the system of cold bosonic atoms (CBA) in a zigzag optical lattice using a continuum approximation. Many solutions to the equation were obtained using two distinct methods: the three-wave approach (multi-wave interaction, rational solutions, and rational solution interaction) and the extended sub-equation method. These analytical approaches are more effective, consistent, and comprehensive mathematical tools for obtaining various exact closed-form solutions for a wide range of fractional space-time nonlinear evolution equations encountered in optical physics, condensed matter physics, and plasma physics. The solutions generated are in the form of hyperbolic and trigonometric solutions, and other-form solutions are obtained. Three-dimensional graphics and contour plots are often used to depict the graphical representations of the combined soliton solutions. These findings will aid our understanding of the dynamics of the zigzag optical grids and many other structures formed by colder bosonic atoms. The applied approaches are more simple, efficient, and straightforward to obtain the closed-form solutions for various nonlinear evolution equations in the fields of nonlinear sciences and physical engineering.

Keywords:

PACS: 02.20.Sv, 05.45.Yv, 02.30.Jr, 47.35.Fg

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