A Numerical-analytical Method for Particle Accelerators: a Reworking Mode Matching Technique As a Testing Tool for Analytical and Experimental Methods in Accelerators Physics - Marco Panniello - Libros - LAP LAMBERT Academic Publishing - 9783838360140 - 27 de octubre de 2010
En caso de que portada y título no coincidan, el título será el correcto

A Numerical-analytical Method for Particle Accelerators: a Reworking Mode Matching Technique As a Testing Tool for Analytical and Experimental Methods in Accelerators Physics

Precio
Mex$ 960
sin IVA

Pedido desde almacén remoto

Entrega prevista 3 - 13 de ago.
Recibe notificaciones sobre nuevos lanzamientos de Marco Panniello
Añadir a tu lista de deseos de iMusic

Aún no valorado

The Coupling Impedance is one of the most important parameters in Particle Accelerator Design. Various methods were developed to calculate and measure this parameter or its correspondent in time domain, the Wake Field. Unfortunately, there are indications that, at least for some configurations and boundary conditions, the results of some of these methods are not satisfactory. In particular, we will concentrate our attention on a common bench measurement named Wire Method. Even if this method has been largely studied, little improvements have been introduced and its results are still only partially reliable at least in some range of frequencies, as it will be shown. In order to test the results of some commercial and freeware computer codes and of the Wire Method, we intent to resort to analytical methods (to be treated numerically only in the final stage) to be implemented in homemade codes conceived ?ad hoc?. To this end, a reworking version of the Mode Matching technique has been adopted. Here, we will show that the indications given by this method may be very important as an independent check of the results produced by other sources.

Medios de comunicación Libros     Paperback Book   (Libro con tapa blanda y lomo encolado)
Publicado 27 de octubre de 2010
ISBN13 9783838360140
Editores LAP LAMBERT Academic Publishing
Páginas 140
Dimensiones 226 × 8 × 150 mm   ·   227 g
Lengua Alemán