Title :
Transient beam-loading detection in an SNS cavity- simulations and initial measurements
Author :
Zhang, Y. ; Campisi, I.E. ; Deibele, C. ; Galambos, J. ; Henderson, S.D. ; Ma, H. ; Kang, Y. ; Wilson, J.
Author_Institution :
ORNL, Oak Ridge
Abstract :
Beam phase measurement based on the detection of a transient beam-loading signal in a SC cavity has the potential to become a very fast linac tune-up technique, especially for an electron linac, as it may precisely set up the cavity´s synchronous phase. A large signal-to-noise ratio is critical in the development of a transient detector technique. This paper discusses the study of a transient detector in the Spallation Neutron Source proton linac and the major challenge for this method: stochastic noise in the rf system, which reduces the precision and increases the time needed for accurate phase measurement. Using simulation studies with a beam-cavity model, signal measurement with the Low-Level RF system, and the experiment with prototype detectors, we analyzed the influence of noise on phase measurement.
Keywords :
accelerator RF systems; accelerator cavities; beam handling techniques; electron accelerators; electron beams; linear accelerators; neutron sources; particle beam bunching; proton accelerators; proton beams; RF system; SNS cavity; beam bunch; beam phase measurement; beam-cavity model; cavity synchronous phase; electron linac; linac tune-up technique; prototype detectors; signal-to-noise ratio; spallation neutron source proton linac; stochastic noise; transient beam-loading signal; transient detector technique; Detectors; Electron beams; Linear particle accelerator; Neutrons; Phase detection; Phase measurement; Phase noise; Protons; Signal to noise ratio; Stochastic systems;
Conference_Titel :
Particle Accelerator Conference, 2007. PAC. IEEE
Conference_Location :
Albuquerque, NM
Print_ISBN :
978-1-4244-0916-7
DOI :
10.1109/PAC.2007.4441302
