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چکیده
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This study investigates nonlinear wave structures in electron-ion plasma. We use reductive perturbation theory to derive the Gardner equation, exploring the impact of plasma parameters. The study extends beyond standard homogeneous plasma assumptions, uncovering breather soliton structures. These breathers serve as energy carriers and have applications in diverse fields. We explore breather solitons and analyze a range of structures, including compressive and rarefactive two-soliton solutions, which could revolutionize our understanding of energy transport. These findings hold significance for atmospheric studies, ocean dynamics, optic fibers, signal processing, and more. This study deepens our comprehension of complex wave phenomena, providing insights into various applications, including Saturn. Furthermore, potential applications extend to quantum computing, advanced telecommunications, and medical imaging technologies. This study deepens our comprehension of complex wave phenomena and their practical implications.
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