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Nonlinear Wave Dynamics in Space Plasmas: Evolution from Simple-wave Solitons to Amplitude-modulated Oscillitons Jean-pierre St-maurice
Nonlinear Wave Dynamics in Space Plasmas: Evolution from Simple-wave Solitons to Amplitude-modulated Oscillitons
Jean-pierre St-maurice
This is a companion monograph to Ma & St-Maurice: Ion Kinetic Theory of Auroral Plasmas, LAP Lambert Academic Publishing, 2011. Nonlinear waves observed in space plasmas are featured by simple-wave solitary structures and amplitude-modulated oscilliton wavepackets. Their wavefields are so strong that the traditional weak-field KdV formulation is not suitable to be adopted. A self-similar two-fluid model is thus used to account for the excitation, propagation, and effects of large-amplitude solitary waves in space plasmas. Both Cartesian and cylindrical geometries are considered. After introducing two mathematical methods usually used for classical solitary waves, generic, exact modelings are described on a step-by-step basis to characterize the evolution from amplitude-unmodulated simple-wave soliton modes to amplitude-modulated oscilliton ones. The effects of nonlinear waves on transverse ion heating and ion-cyclotron frequency broadening are discussed in details by employing a simple magnetic flux tube model. A summary and limitations of the work are also addressed. The research was also guided by Professor Akira Hirose, Canada Research Chair, University of Saskatchewan, Canada.
| Media | Books Paperback Book (Book with soft cover and glued back) |
| Released | July 22, 2011 |
| ISBN13 | 9783845407593 |
| Publishers | LAP LAMBERT Academic Publishing |
| Pages | 268 |
| Dimensions | 152 × 229 × 15 mm · 417 g |
| Language | German |