Title :
Piezoelectric tuner compensation of Lorentz detuning in superconducting cavities
Author :
Davis, G.K. ; Delayen, J.R.
Author_Institution :
Thomas Jefferson Nat. Accel. Facility, Newport News, VA, USA
Abstract :
Pulsed operation of superconducting cavities can induce large variations of the resonant frequency through excitation of the mechanical modes by the radiation pressure. The phase and amplitude control system must be able to accommodate this frequency variation; this can be accomplished by increasing the capability of the rf power source. Alternatively, a piezoelectric tuner can be activated at the same repetition rate as the rf to counteract the effect of the radiation pressure. We have demonstrated such a system on the prototype medium beta SNS cryomodule with a reduction of the dynamic Lorentz detuning during the rf pulse by a factor of 3. We have also measured the amplitude and phase of the transfer function of the piezo control system (from input voltage to cavity frequency) up to several kHz.
Keywords :
accelerator RF systems; accelerator cavities; particle beam diagnostics; particle beam dynamics; piezoelectric devices; radiation pressure; superconducting cavity resonators; transfer functions; Lorentz detuning; amplitude control system; mechanical modes excitation; piezo control system; piezoelectric tuner compensation; prototype medium beta SNS cryomodule; radiation pressure; resonant frequency; rf power source; rf pulse; superconducting cavities pulsed operation; transfer function; Control systems; Delay; Frequency measurement; Phase measurement; Prototypes; Pulse measurements; Pulse shaping methods; Superconducting devices; Transfer functions; Tuners;
Conference_Titel :
Particle Accelerator Conference, 2003. PAC 2003. Proceedings of the
Print_ISBN :
0-7803-7738-9
DOI :
10.1109/PAC.2003.1289713
