Fr. 253.20

Crystalline Beams and Related Issues - Proceedings of the 31st Workshop of the Infn Eloisation Project

English · Hardback

Shipping usually takes at least 4 weeks (title will be specially ordered)

Description

Read more










Despite the great progress made during this century in the development and operation of particle accelerators, we are, at the moment, facing severe limitations which impede the attainment of very cold and dense beams of charged particles. These limitations are due to the interparticle Coulomb interactions: intrabeam scattering and space-charge effects.Recently, there has been interest in the feasibility of producing a crystalline beam. This is a spatially ordered ensemble of circulating particles having very small velocity fluctuations relative to each other. Such a state may be obtainable from an ordinary warm beam through the application of intense and continuous phase-space cooling (e.g. stochastic, electron, laser).Crystalline beams represent the ultimate in the control of space-charge effects. The study, and eventual attainment, of crystalline beams may lead to a variety of other applications, but will certainly provide a deeper insight into the fundamental limitations of storage rings and particle colliders.

Product details

Assisted by Dusan M Maletic (Editor), Dusan M. Maletic (Editor), Alessandro G Ruggiero (Editor), Alessandro G. Ruggiero (Editor)
Publisher World Scientific Publishing Company
 
Languages English
Product format Hardback
Released 03.01.1997
 
EAN 9789810227852
ISBN 978-981-02-2785-2
No. of pages 500
Series Science and Culture Series - P
Subject Natural sciences, medicine, IT, technology > Physics, astronomy > Atomic physics, nuclear physics

Customer reviews

No reviews have been written for this item yet. Write the first review and be helpful to other users when they decide on a purchase.

Write a review

Thumbs up or thumbs down? Write your own review.

For messages to CeDe.ch please use the contact form.

The input fields marked * are obligatory

By submitting this form you agree to our data privacy statement.