Neutrino Factory Workshop, IOP, 28th October 2003 RF Systems David M Wilcox.

Slides:



Advertisements
Similar presentations
Areal RF Station A. Vardanyan RF System The AREAL RF system will consist of 3 RF stations: Each RF station has a 1 klystron, and HV modulator,
Advertisements

RF Safety Discussion Derun Li/Bob Rimmer Center for Beam Physics Lawrence Berkeley National Laboratory SRF Institute, JLab.
PAL/POSTECH 제 2 회 한국 국제선형충돌가속기 워크숍 Waveguide System for Linear Collider Woon-Ha Hwang Linac Division Pohang Accelerator Laboratory 2005,12,28.
Collaboration meeting, RAL, 4 th – 7th November 2009 Andrew Moss ASTeC Collaboration meeting, RAL, 10 th – 13 th november 2009 MICE RF Amplifier Status.
PEP Super-B High Power RF Peter McIntosh SLAC Super-B Factory Workshop in Hawaii April 2005 University of Hawaii.
Safety Review: RF Issues Derun Li Absorber Safety Review December 9-10, 2003 Lawrence Berkeley National Laboratory Berkeley, CA
MuCool RF Status MICE Collaboration Meeting June 7-10, 2006, Fermilab A. Moretti June 9, 2006.
1.0 MW / 175 MHz Source for IFMIF: a study of alternatives
Linac Front-End R&D --- Systems Integration and Meson Lab Setup
Front End Test Stand Klystron Commissioning Alan Letchford UKNF Plenary Meeting 22 nd April 2009.
201 MHz and 805 MHz Cavity Developments in MUCOOL Derun Li Center for Beam Physics Lawrence Berkeley National Laboratory Nufact 2002 Workshop, London,
1 MICE RF Daresbury Laboratory Support Joe Orrett - ASTeC.
201 MHz NC RF Cavity R&D for Muon Cooling Channels
Test Stands Roger Ruber Uppsala University ESS TAC4 16 Feb
RF Distribution Alternatives R.A.Yogi & FREIA group Uppsala University.
RF power & FPC status Eric Montesinos, CERN BE-RF on behalf of all people involved, great thanks to all of them !
Visits to Chinese accelerator companies Peter Pearce (April 2004) Two companies were visited. Beijing Medical Equipment Institute at Chongping and Beijing.
Multiple Beam Klystrons for Accelerators and Collider
High Power RF Systems, Control and Distribution in the HINS Alfred Moretti, Brian Chase, Chris Jensen and Peter Prieto Fermilab Accelerator Advisory Committee.
February 17-18, 2010 R&D ERL Alex Zaltsman R&D ERL High Power RF Systems Alex Zaltsman February 17-18, 2010 High Power RF Systems.
FAIR PROJECT COST BOOK. FAIR cost 1.2 mld euro 1. Civil construction and infrastructure 322Meuro 2. Accelerator systems 592 Meuro 3. Experimental facilities.
RF Development for ESS Roger Ruber and Volker Ziemann Uppsala Universitet 4 Dec Dec-20091RR+VZ: ESS RF Development.
Anders Sunesson RF Group ESS Accelerator Division
1 SPL Collaboration Meeting dec 08 - WG1 Introduction First SPL Collaboration Meeting Working Group 1 High Power RF Distribution System Introduction.
805 MHz Status IIT NFMCC Meeting March 12-15, 2006 A. Moretti March 12, 2006.
1.3GHz Input Coupler for ILC
Ding Sun and David Wildman Fermilab Accelerator Advisory Committee
Solid State RF High Power Amplifier Developments at SOLEIL Ti RUAN, on behalf of SOLEIL RF Group CWRF10 CELLS-ALBA Barcelona Spain May
ESS RF System Design Stephen Molloy RF Group ESS Accelerator Division SLHiPP2 4-May-2012.
Renovation of the 200 MHz RF system LLRF issues. Cavities redistribution 26 October th LIU-SPS Coordination Meeting 2  2011 : 4 cavities 2 x 4.
Fermilab Proton Driver Project Weiren Chou for Bill Foster Fermilab, U.S.A. October 20, 2004 Presentation at the Proton Driver Session ICFA-HB2004, Bensheim,
MTA RF Status 01/31/ 2007 NF&MCC Meeting UCLA A. Moretti.
Thomas Jefferson National Accelerator Facility Operated by the Southeastern Universities Research Association for the U.S. Department of Energy Kirk Davis.
704 MHz warm cavity November 4, 2015 A.Zaltsman: SRF & warm RF components for LEReC1  A single cell 704 MHz warm cavity is used to correct the beam energy.
State-of-the-Art Accelerator Technology Peter McIntosh, STFC HEPTech Environmental Applications of Accelerators 9 th July 2013.
Comparison of Fermilab Proton Driver to Suggested Energy Amplifier Linac Bob Webber April 13, 2007.
A 350 MHz, 200 kW CW, Multiple Beam IOT Lawrence Ives, Michael Read, David Marsden, R. H. Jackson, Thuc Bui Calabazas Creek Research, Saratoga, CA. USA.
F DOE Annual Program Review High Intensity Neutrino Source R&D in the Meson Detector Building Bob Webber & Giorgio Apollinari September 26, 2007.
High Intensity Neutrino Source Program Overview for CD Controls Management Meeting Bob Webber October 6, 2006.
The LHC RF Power Systems Skip the intro… CWRF08 workshop - March'08 1 Presented by : Luca Arnaudon Slides by : Olivier Brunner & Luca Arnaudon Important.
CW and High Average Power Workshop BNL The Diamond Storage Ring IOT based High Power Amplifier Morten Jensen on behalf of the SR RF Group.
Programmable Logic Controller & Distributed Control System Yoon-Je Choi 17 th June 2006.
650 MHz Solid State RF Power development at RRCAT
June 16, 2015 CLIC WORKSHOP JANUARY 18 – 22, 2016 OPTIMIZED RF UNIT I 1 January 21, 2016 By: Mikael Lindholm.
Project X High Power 325 MHz RF Distribution and Control Alfred Moretti, Nov 12, 2007 Project X Workshop.
Superconducting Accelerating Cryo-Module Tests at DESY TESLA Technology Collaboration (TTC) Meeting, February 28 - March , Milano, Italy Denis Kostin,
High-efficiency L-band klystron development for the CLIC Drive Beam High-efficiency L-band klystron development for the CLIC Drive Beam CLIC workshop,
Linac RF System Design Options Y. Kang RAD/SNS/NScD/ORNL Project – X Collaboration Meeting April , 2011.
D. Li, Project X Collaboration Meeting, Fermilab (October 25-27, 2011) Overview of Project X Frond-End R&D at LBNL Derun Li Project X Collaboration Meeting.
Fermilab-India Agreements and Collaboration Shekhar Mishra Project-X, International Collaboration Coodinator Fermi National Accelerator Laboratory Batavia,
325 MHz Superconducting Spoke Cavity Coupler status. T. Khabiboulline Power Coupler design for Superconducting Spoke cavities. Originally.
Infrastructure status and plans at CERN 1) W. Weingarten/CERN TTC Milano 28 February - 3 March W. Weingarten/CERN 1)Most of the slides are based.
ESS LLRF and Beam Interaction
Report Technical Director Storage-Ring-Installation Completed
Areal RF Station A. Vardanyan
How does a klystron work? TE-MPE Section Meeting Karolina Kulesz
Solid State Amplifier Development at PSI
CLIC Civil Engineering & Infrastructure Working Group Meeting
An X-band system for phase space linearisation on CLARA
Construction and Commissioning of Electronic Test Benches
ESS RF Development at Uppsala University
BEPCII RF POWER SOURCE AND INPUT COUPLER
IFMIF-EVEDA RF POWER SYSTEM
Klystron Power Supplies for ILC
CEPC RF Power Sources System
RF systems introduction
Status of RF at HZB: BESSY II, MLS, bERLinPro and BESSY VSR
Status and New Developments of ALBA RF Systems
RF introduction Anders Sunesson RF group leader
Status and New Developments of ALBA RF Systems
Presentation transcript:

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?