Title :
An over-damped cavity longitudinal kicker for the PEP-II LER
Author :
McIntosh, P. ; Akre, R. ; Anderson, R.D. ; DeBarger, S. ; Dormiani, M. ; Fox, J. ; Jobe, K. ; Schwarz, H. ; Teytelman, D. ; Wienands, U. ; Young, A. ; Marcellini, F. ; Tobiyama, M.
Author_Institution :
Stanford Linear Accel. Center, CA
Abstract :
Both rings of PEP-II use drift tube kickers in the longitudinal bunch-by-bunch feedback system. Efforts are now underway to increase the stored beam currents and luminosity of PEP-II, and beam-induced heating of these structures, particularly in the low energy ring (LER) is of concern. An alternative kicker design based on the over-damped cavity kicker, first developed by INFN-Frascati is being built for PEP-II. This low loaded Q (or wide bandwidth) structure is fed by a network of ridged waveguides coupled to a simple pill-box cavity. Beam induced RF power is also coupled out of the cavity to external loads, so that the higher order modes (HOMs) excited in the structure are well-damped. This paper details the kicker design for PEP-II and discusses some of the design trade-offs between shunt impedance and bandwidth, as well as the influence of the feedthroughs on the kicker parameters. Estimates of the expected power deposition in the cavity are also provided
Keywords :
accelerator cavities; electron accelerators; storage rings; PEP-II low energy ring; beam currents; beam induced RF power; beam-induced heating; drift tube kickers; higher order modes; longitudinal bunch-by-bunch feedback system; over-damped cavity kicker; over-damped cavity longitudinal kicker; pill-box cavity; ridged waveguides; shunt impedance; Bandwidth; Electrodes; Feedback; Heating; Impedance; Optical coupling; Parameter estimation; Radio frequency; Thermal stresses; Wideband;
Conference_Titel :
Particle Accelerator Conference, 2003. PAC 2003. Proceedings of the
Conference_Location :
Portland, OR
Print_ISBN :
0-7803-7738-9
DOI :
10.1109/PAC.2003.1289841
