Add to ORKGA systematic exposition of the basic concepts of wakes and impedances is given for relativistic beams in accelerators. Lecture presented at JAS'200
The lectures “High-Beta Cavities I and II” cover the main concepts that underly acceleration of rela...
This document is part of Subvolume C 'Accelerators and Colliders' of Volume 21 'Elementary Particles...
The wake fields of a bunched beam caused by the resistivity of the chamber walls are investigated fo...
In most applications to particle accelerators, impedances and wake functions are defined for test an...
The lecture reviews general concepts of beam-induced electromagnetic fields in accelerator devices. ...
Analytic techniques for calculation of impedances and wake potentials in particle accelerators or st...
Sections 3.2.4 and 3.2.5 of the Handbook of Accelerator Physics and Engineering on Landau damping ar...
As demands for high luminosity and low emittance particle beams increase, an understanding of the el...
Knowledge of electromagnetic interaction between a particle beam and the surrounding walls of the v...
The wake function of an accelerator device appears to have a constant term if the geometry of the de...
Knowledge of the electromagnetic interaction between a beam and the surrounding vacuum chamber is ne...
The transport of a high current relativistic electron beam in a stripline beam kicker is strongly de...
After a general introduction, the basic principles of wake-field and beamcoupling- impedance computa...
The usual expression for the longitudinal wake field in terms of the impedance is exact only for th...
The lectures “High-Beta Cavities I and II” cover the main concepts that underly acceleration of rela...
The lectures “High-Beta Cavities I and II” cover the main concepts that underly acceleration of rela...
This document is part of Subvolume C 'Accelerators and Colliders' of Volume 21 'Elementary Particles...
The wake fields of a bunched beam caused by the resistivity of the chamber walls are investigated fo...
In most applications to particle accelerators, impedances and wake functions are defined for test an...
The lecture reviews general concepts of beam-induced electromagnetic fields in accelerator devices. ...
Analytic techniques for calculation of impedances and wake potentials in particle accelerators or st...
Sections 3.2.4 and 3.2.5 of the Handbook of Accelerator Physics and Engineering on Landau damping ar...
As demands for high luminosity and low emittance particle beams increase, an understanding of the el...
Knowledge of electromagnetic interaction between a particle beam and the surrounding walls of the v...
The wake function of an accelerator device appears to have a constant term if the geometry of the de...
Knowledge of the electromagnetic interaction between a beam and the surrounding vacuum chamber is ne...
The transport of a high current relativistic electron beam in a stripline beam kicker is strongly de...
After a general introduction, the basic principles of wake-field and beamcoupling- impedance computa...
The usual expression for the longitudinal wake field in terms of the impedance is exact only for th...
The lectures “High-Beta Cavities I and II” cover the main concepts that underly acceleration of rela...
The lectures “High-Beta Cavities I and II” cover the main concepts that underly acceleration of rela...
This document is part of Subvolume C 'Accelerators and Colliders' of Volume 21 'Elementary Particles...
The wake fields of a bunched beam caused by the resistivity of the chamber walls are investigated fo...