Neutrino Factory Workshop, IOP, 28th October 2003 RF Systems David M Wilcox
Summary Purpose Who needs whom? The RF System Components of the RF system Benefits Questions
Purpose To ensure that UK industry becomes fully engaged in the UKNF project Increase the credibility of the UK as a site for the machine by creating a strong and expert manufacturing base To ensure that the UK benefits fully from the construction of the Neutrino Factory To encourage innovation by firing the enthusiasm and imagination of engineers To encourage technical networking between world class scientists and world class UK companies.
Who needs whom? The UKNF project needs your input of industrial know-how right from the start routine contribution to reality and feasibility checks The UK NF project represents to industry a great technology driver in many subjects an opportunity for large, medium and small companies the chance to contribute manufacturing knowledge and skills to a remarkable engineering endeavour
The RF system An RF system in this analysis includes:- Everything from the isolator in the local 3-phase supply up to and including the accelerating cavities. The interlocking and protection circuitry The local control system and the provision of control data to the central control system
RF System Cartoon
Connection to 3-phase supply Standard high quality power distribution components ………..but must not be overlooked!!
AC to DC conversion and fast protection High efficiency Small size Low noise Good power factor Low stored energy Fast switch-off
Main RF Power Source Klystron Gyro-device Magnetron IOT Tetrode Focus magnets External cavity resonators Piece part manufacture
RF driver and ancilliary power supplies RF driver – high stability, linear, narrow band 100W upwards Heater psu – low voltage medium DC current isolated to high voltage Ion pump psu – high impedance 5 kV 10 :A 3 kV 1.5 mA Magnet psu – low voltage medium current
RF output window and waveguide transition RF window and output transition designed as a matched unit Specialised RF design Specialised ceramic manufacture Precision mechanical construction
Circulator and power measurement High power circulator Directional couplers Arc detectors High power RF load
Splitters and combiners Type –‘Magic T’ –Wilkinson –Gysel –Resonant cavity Operating environment –Short pulse > 50 MW, 5:s, X-band –Long pulse > 10 MW, 2ms, L-band –CW > 1 MW, HF to L-band
RF cavities, RF windows and couplers Room temperature RF cavities OFHC cavity construction RF input couplers Couplers for harmonic loading High power RF windows Superconducting RF cavities Niobium or niobium coated OFHC Semiconductor standards of cleanliness High mechanical stability Cryostat technology RF input couplers with high thermal gradient High power RF windows
Control system Fault monitoring and fast protection system Safety interlock system Power stabilisation via local feedback Data monitoring and processing system Data transmission to central control Data receive system from central control Power adjustment by central control system
Installation Services – water, HP air etc. Cabling Wiring Testing Commissioning
Radio Frequency Quadrupole LANSCE DIVISION RESEARCH REVIEW Courtesy of LANL
Radio frequency quadrupole accelerating structure
Illustration from RF CAVITIES FOR THE MUON AND NEUTRINO FACTORY COLLABORATION STUDY A. Moretti, N. Holtkamp, T. Jurgens, Z. Qian and V. Wu, FNAL, Batavia, IL 60510, USA RF hardware for Muon Cooling
Coutesy of Center for Beam Physics, LBNL work supported principally by the U.S. Department of Energy under Contract No. DE-AC03-76SF LBNL MHz Low Power Test RF Cavity
Benefits for industry Keeps industry at the leading edge Provides challenges and training for engineers Raises company technical image Develops world-class technical contacts Promotes Company’s self esteem Good for UK plc
Any Questions?