DocumentCode
818588
Title
The PEP Injection System
Author
Brown, K.L. ; Avery, R.T. ; Peterson, J.M.
Author_Institution
Stanford Linear Accelerator Center Stanford University, Stanford, California 94306
Volume
22
Issue
3
fYear
1975
fDate
6/1/1975 12:00:00 AM
Firstpage
1423
Lastpage
1425
Abstract
A system to transport 10-to-15-GeV electron and positron beams from the Stanford Linear Accelerator and to inject them into the PEP storage ring under a wide variety of lattice configurations has been designed. Optically, the transport line consists of three 360° phase-shift sections of FODO lattice, with bending magnets interspersed in such a way as to provide achromaticity, convenience in energy and emittance definition, and independent tuning of the various optical parameters for matching into the ring. The last 360° of phase shift has 88 milliradians of bend in a vertical plane and deposits the beam at the injection septum via a Lambertson magnet. Injection is accomplished by launching the beam with several centimeters of radial betatron amplitude in a fast bump provided by a triad of pulsed kicker magnets. Radiation damping reduces the collective amplitude quickly enough to allow injection at a high repetition rate.
Keywords
Electron beams; Electron optics; Lattices; Linear accelerators; Magnets; Optical tuning; Particle beams; Positrons; Stimulated emission; Storage rings;
fLanguage
English
Journal_Title
Nuclear Science, IEEE Transactions on
Publisher
ieee
ISSN
0018-9499
Type
jour
DOI
10.1109/TNS.1975.4327900
Filename
4327900
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