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Room temperature accelerator structures for linear colliders | | R.H. Miller
; R.M. Jones
; C. Adolphsen
; G. Bowden
; V. Dolgashev
; N. Kroll Z. Li
; R. Loewen
; C. Ng
; C. Pearson
; T. Raubenheimer R. Ruth
; S. Tantawi
; J.W. Wang
; | | Date: |
29 Aug 2001 | | Subject: | Accelerator Physics | physics.acc-ph | | Abstract: | Early tests of short low group velocity and standing wave structures indicated the viability of operating X-band linacs with accelerating gradients in excess of 100 MeV/m. Conventional scaling of traveling wave traveling wave linacs with frequency scales the cell dimensions with l. Because Q scales as l1/2, the length of the structures scale not linearly but as l3/2 in order to preserve the attenuation through each structure. For NLC we chose not to follow this scaling from the SLAC S-band linac to its fourth harmonic at X-band. We wanted to increase the length of the structures to reduce the number of couplers and waveguide drives which can be a significant part of the cost of a microwave linac. Furthermore, scaling the iris size of the disk-loaded structures gave unacceptably high short range dipole wakefields. Consequently, we chose to go up a factor of about 5 in average group velocity and length of the structures, which increases the power fed to each structure by the same factor and decreases the short range dipole wakes by a similar factor. Unfortunately, these longer (1.8 m) structures have not performed nearly as well in high gradient tests as the short structures. We believe we have at least a partial understanding of the reason and will discuss it below. We are now studying two types of short structures with large apertures with moderately good efficiency including: 1) traveling wave structures with the group velocity lowered by going to large phase advance per period with bulges on the iris, 2) pi mode standing wave structures | | Source: | arXiv, physics/0108063 | | Services: | Forum | Review | PDF | Favorites | |
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