Title :
Very high resolution RF cavity BPM
Author :
Ross, Marc ; Frisch, Joe ; Hendrickson, Linda ; Mccormick, Douglas ; Vogel, Vladimir ; Hayano, Hitoshi ; Urakawa, Junji
Author_Institution :
Stanford Linear Accelerator Center, CA, USA
Abstract :
Linear collider (LC) interaction region beam sizes and component position stability requirements are expected to be a few nanometers. It is important to show that the related tolerances can be achieved, with an electron beam if possible. Using recently developed component stabilization technology, very high-resolution beam position monitors (BPM´s), and the ultra-low emittance beam at the KEK ATF, we plan to demonstrate the required stabilization. Our first step is to develop high-resolution RF cavity beam position monitors, using either C or X band frequencies. A C-band cavity BPM with a resolution of 25 nm has been reported in tests at FFTB. By correcting for the effects of nonaxial trajectories and using both position and angle BPM movers, we expect to be able to demonstrate a resolution of 2 to 3 nm over a dynamic range of ± 20 um. We report on the progress of the tests here.
Keywords :
accelerator RF systems; accelerator cavities; electron accelerators; linear colliders; particle beam diagnostics; particle beam dynamics; particle beam stability; C band frequency; C-band cavity; KEK ATF; X band frequency; beam dynamic range; component position stability; electron beam; high-resolution RF cavity beam position monitors; high-resolution beam position monitors; linear collider interaction region beam size; nonaxial trajectories; ultra-low emittance beam; Colliding beam accelerators; Colliding beam devices; Electron beams; Motion control; Nuclear physics; Particle beams; Radio frequency; Signal resolution; Stability; Testing;
Conference_Titel :
Particle Accelerator Conference, 2003. PAC 2003. Proceedings of the
Print_ISBN :
0-7803-7738-9
DOI :
10.1109/PAC.2003.1289182
