Nonlinear Wave Dynamics in Space Plasmas: Evolution from Simple-wave Solitons to Amplitude-modulated Oscillitons - Jean-pierre St-maurice - Libros - LAP LAMBERT Academic Publishing - 9783845407593 - 22 de julio de 2011
En caso de que portada y título no coincidan, el título será el correcto

Nonlinear Wave Dynamics in Space Plasmas: Evolution from Simple-wave Solitons to Amplitude-modulated Oscillitons

Precio
Mex$ 1.264
sin IVA

Pedido desde almacén remoto

Entrega prevista 27 de jul. - 6 de ago.
Recibe notificaciones sobre nuevos lanzamientos de Jean-pierre St-maurice
Añadir a tu lista de deseos de iMusic

Aún no valorado

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.

Medios de comunicación Libros     Paperback Book   (Libro con tapa blanda y lomo encolado)
Publicado 22 de julio de 2011
ISBN13 9783845407593
Editores LAP LAMBERT Academic Publishing
Páginas 268
Dimensiones 152 × 229 × 15 mm   ·   417 g
Lengua Alemán  

Mas por Jean-pierre St-maurice

Mostrar todo