Manuscript Topics

Nonlinear wave phenomena and soliton solutions have captivated researchers across diverse fields, from mathematics and theoretical physics to applied sciences and engineering. Solitons—self-reinforcing, localized waves that maintain their shape while traveling over long distances—arise in numerous integrable systems and embody one of the most fascinating aspects of nonlinear dynamics. Originally discovered in the context of shallow water waves, solitons have since been observed in optical fibers, plasma physics, Bose-Einstein condensates, and even biophysical systems.

This special issue, Soliton Dynamics and Nonlinear Waves: Integrable Systems, Experimental Insights, and Beyond, explores the cutting-edge developments in soliton theory and applications across these fields, emphasizing theoretical advances, experimental observations, and interdisciplinary connections. We invite researchers to contribute work spanning theoretical, computational, and experimental approaches, exploring the multifaceted nature of solitons and nonlinear wave equations. Our goal is to promote innovative discoveries, the application of advanced mathematical methodologies, and highlight emerging trends that deepen our understanding of solitons, providing insights into the complexities of nonlinear wave phenomena across physics and related fields.

Topics embraced within this special issue include, but are not limited to:
• Theoretical frameworks for describing soliton dynamics, including integrable systems and inverse scattering methods.
• Formation, propagation, and stability of rogue waves.
• Applications of solitons in optical systems, plasma physics, condensed matter physics, hydrodynamics, and other areas of physics.
• Quantum aspects of solitons and their relevance in quantum field theory, Bose-Einstein condensates, and beyond.
• Experimental observations and technological implications of solitons in various physical systems.
• Experimental studies on rogue wave formation and mitigation.
• Interdisciplinary connections between solitons and other branches of physics, such as astrophysics, biophysics, and nonlinear optics.
• Multi-scale approaches to modeling wave phenomena in varying topographies and seabed structures.

Instructions for authors
https://www.aimspress.com/nhm/news/solo-detail/instructionsforauthors
Please submit your manuscript to online submission system
https://aimspress.jams.pub/