Title :
Re-circulating linac vacuum system
Author :
Wells, R.P. ; Corlett, J.N. ; Zholents, A.A.
Author_Institution :
LBNL, Berkeley, CA, USA
Abstract :
The vacuum system for a proposed 2.5 GeV, 10μA re-circulating linac synchrotron light source is readily achievable with conventional vacuum hardware and established fabrication processes. Some of the difficult technical challenges associated with synchrotron light source storage rings are sidestepped by the relatively low beam current and short beam lifetime requirements of a re-circulating linac. This minimal lifetime requirement leads directly to relatively high limits on the background gas pressure through much of the facility. The 10μA average beam current produces very little synchrotron radiation induced gas desorption and thus the need for an "ante-chamber" in the vacuum chamber is eliminated. In the arc bend magnets, and the insertion devices, the vacuum chamber dimensions can be selected to balance the coherent synchrotron radiation and resistive wall wakefield effects, while maintaining the modest limits on the gas pressure and minimal outgassing.
Keywords :
accelerator magnets; beam handling techniques; electron accelerators; linear accelerators; outgassing; particle beam dynamics; particle beam stability; storage rings; synchrotron radiation; 10 muA; 2.5 GeV; arc bend magnets; background gas pressure; beam lifetime; conventional vacuum hardware; fabrication processes; gas desorption; insertion devices; linac vacuum system; low beam current; minimal outgassing; recirculating linac synchrotron light source; resistive wall wakefield effects; synchrotron light source storage rings; synchrotron radiation; vacuum chamber; vacuum chamber dimensions; Apertures; Cutoff frequency; Electron beams; Energy loss; Light sources; Linear particle accelerator; Magnets; Scattering; Synchrotron radiation; Vacuum systems;
Conference_Titel :
Particle Accelerator Conference, 2003. PAC 2003. Proceedings of the
Print_ISBN :
0-7803-7738-9
DOI :
10.1109/PAC.2003.1289486