The Ostrovsky Equation and Related Wave Models
New Insights and Perspectives
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Beschreibung
This book covers recent developments in the wave theory with applications to physical oceanography, plasma, optics, acoustics, astrophysics, solids, condensed matter, including Bose-Einstein condensation, and other fields. Separate chapters written by leading experts in physics and mathematics represent new information on surface and internal waves, including rogue waves, tsunami waves, solitons, waves in solid waveguides. Some authors will present materials on wave interactions, complex dynamics, chaos, stochasticity, and fractional dynamics, as well as on pattern formation and their dynamics. We also plan to include chapters containing experimental results on wave dynamics in laboratory sets up and in the field, as well as some chapters on rigorous mathematical methods in the wave theory. The most recent books on overlapping topics were published more than 10 years ago; therefore, it is reasonable to review the progress in this field.
Describes in depth the Ostrovsky Equation, which govern various natural processes
Provides basis for explaining various experiments based on Ostrovsky Equation
Maximizes understanding of nonlinear wave theory Ostrovsky Equation’s range and its nontrivial mathematical properties
This book covers recent developments in the wave theory with applications to physical oceanography, plasma, optics, acoustics, astrophysics, solids, condensed matter, including Bose-Einstein condensation, and other fields. Separate chapters written by leading experts in physics and mathematics represent new information on surface and internal waves, including rogue waves, tsunami waves, solitons, waves in solid waveguides. Some authors will present materials on wave interactions, complex dynamics, chaos, stochasticity, and fractional dynamics, as well as on pattern formation and their dynamics. We also plan to include chapters containing experimental results on wave dynamics in laboratory sets up and in the field, as well as some chapters on rigorous mathematical methods in the wave theory. The most recent books on overlapping topics were published more than 10 years ago; therefore, it is reasonable to review the progress in this field.
Describes in depth the Ostrovsky Equation, which govern various natural processes Provides basis for explaining various experiments based on Ostrovsky Equation Maximizes understanding of nonlinear wave theory OE’s range and its nontrivial mathematical properties
Autor*in
Efim Pelinovsky
Themen in »The Ostrovsky Equation and Related Wave Models«
Ostrovsky equation wave interactions complex dynamics chaos stochasticity fractional dynamics