Title :
High-precision beam-based RF phase stabilization at Jefferson Lab
Author :
Lebedev, V.A. ; Musson, J. ; Tiefenback, M.G.
Author_Institution :
Thomas Jefferson Nat. Accel. Fac., Newport News, VA, USA
Abstract :
A non-invasive monitor has been implemented for the relative phase of the beam and the accelerating RF of each of the two CW superconducting linacs at TJNAF. Its noise level and resolution are below 0.1° at beam currents as low as 2 microamperes, and it been successfully tested for use in feedback correction for the overall RF accelerating phase of each linac. The 70 MHz frequency reference in each linac is phase modulated by approximately ±0.05° at different frequencies (383 and 397 Hz). A single analog beam position signal from a dispersive region is used to monitor the resulting micron-level position modulation via off-the-shelf lock-in amplifiers, which also supply the modulation signals. The off-crest phase is proportional to the first harmonic coefficient of the energy modulation. This technique can be applied as well to pulsed machines and to systems for which the beam-to-RF relative phase may be non-zero. Other applications are discussed
Keywords :
accelerator RF systems; electron accelerators; linear accelerators; particle beam stability; 383 Hz; 397 Hz; 70 MHz; CW superconducting linac; Jefferson Lab; RF phase stabilization; TJNAF; analog beam position signal; beam current; energy modulation; lock-in amplifiers; noise level; off-crest phase; Acceleration; Linear accelerators; Monitoring; Noise level; Optical modulation; Particle beams; Phase modulation; Pulse amplifiers; Radio frequency; Superconducting device noise;
Conference_Titel :
Particle Accelerator Conference, 1999. Proceedings of the 1999
Conference_Location :
New York, NY
Print_ISBN :
0-7803-5573-3
DOI :
10.1109/PAC.1999.795489
