ILC DR RF Cavity – D. Li DR Workshop, KEK, Japan 1 Design for the DR RF cavities and impedance issues Derun Li Center for Beam Physics Lawrence Berkeley.

Slides:

Advertisements

Similar presentations

Cockcroft Institute LC-ABD plenary April 2007 ILC Crab Cavity Collaboration Cockcroft Institute : –Richard Carter (Lancaster University) –Amos Dexter (Lancaster.

Advertisements

HOM Damper Hardware Considerations for Future Energy Frontier Circular Colliders S. Belomestnykh Brookhaven National Laboratory, Upton, NY ,

X-Ray Pulse Compression Using Deflecting Cavities - Studies at LBNL Derun Li Center for Beam Physics, LBNL LHC IR Upgrades Workshop FNAL, Chicago, IL October.

Plans for 201-MHz Cavities Derun Li Center for Beam Physics Lawrence Berkeley National Laboratory November 18, 2010.

MuCool Test Area RF Workshop Derun Li Center for Beam Physics Lawrence Berkeley National Laboratory November 15, 2010.

RF Measurement Plan Derun Li Center for Beam Physics Lawrence Berkeley National Laboratory January 20, 2011 MICE Video Conference Meeting.

Trip Report on the visit to ICST of HIT, Harbin, China Derun Li Mike Green Steve Virostek Mike Zisman Lawrence Berkeley National Laboratory (from December.

MICE RF Cavity Measurements Derun Li Center for Beam Physics Lawrence Berkeley National Laboratory March 26, 2010 University of California, Riverside,

Industry and the ILC B Barish 16-Aug May-05ILC Consultations - Washington DC2 Why e + e - Collisions? elementary particles well-defined –energy,

ILC Damping Rings R&D Meeting: Cornell, September 2006 Andy Wolski University of Liverpool and the Cockcroft Institute 26 September, 2006.

APS Short Pulse X-ray (SPX) Design Study July 27-29, 2010.

Summary of Impedance Session  Where do we stand? A summary of progress since the CS and RDR (see also C. Ng’s and G. Stupakov’s talks on Day.

Impedance and Collective Effects in BAPS Na Wang Institute of High Energy Physics USR workshop, Huairou, China, Oct. 30, 2012.

Preliminary design of SPPC RF system Jianping DAI 2015/09/11 The CEPC-SppC Study Group Meeting, Sept. 11~12, IHEP.

Activities of Superconducting RF Accelerators at Nanjing University Sun An Proton Linear Accelerator Institute Institute of Energy Sciences, Nanjing University.

1 st October Linear Collider workshop The CLIC/ILC common work plan progress J. Clarke and L. Rinolfi.

ILC – Recent progress & Path to Technical Design Report Brian Foster (Hamburg/DESY/Oxford & GDE) Plenary ECFA CERN 25/11/11.

Summary of SRF WG, LCWS14 H. Hayano, A. Yamamoto.

RF systems for NSLS-II J. Rose, A. Blednykh, P. Mortazavi and Nathan Towne BROOKHAVEN SCIENCE ASSOCIATES.

Report of Visiting PKU, Tsinghua U. IHEP Dec. 9 and 10, 2009 Kaoru Yokoya, Marc Ross, and Akira Yamamoto Report to ILC-EC, Dec. 11, 2008.

R.L. Geng, 5/27-31,2013 ECFA LC2013, DESY 1 Update on Raising Q0 at Ultra-High Gradient via Large-Grain Niobium Material Rongli Geng Jefferson Lab ECFA.

SRF Requirements and Challenges for ERL-Based Light Sources Ali Nassiri Advanced Photon Source Argonne National Laboratory 2 nd Argonne – Fermilab Collaboration.

Office of Science U.S. Department of Energy 1 International Linear Collider In August 2004 ICFA announced their technology selection for an ILC: 1.The.

Americas Main Linac Cavity and Cryomodule WBS X.9 Resource Proposal.

Status of the International Linear Collider and Importance of Industrialization B Barish Fermilab 21-Sept-05.

ILC Damping Rings Mini-Workshop, KEK, Dec 18-20, 2007 Status and Plans for Impedance Calculations of the ILC Damping Rings Cho Ng Advanced Computations.

ILC Damping Ring Alternative Lattice Design （ Modified FODO ） ** Yi-Peng Sun *,1,2, Jie Gao 1, Zhi-Yu Guo 2 Wei-Shi Wan 3 1 Institute of High Energy Physics,

Review 09/2010 page RF System for Electron Collider Ring Haipeng Wang for the team of R. Rimmer and F. Marhauser, SRF Institute and Y. Zhang, G. Krafft.

Damping Ring ImpedanceK. Bane 04/05/2007 ILC DR Impedance Group At SLAC a group has been meeting bi-weekly for ½ year to study ILC DR broad band impedance.

Summery of the power coupler session at the LCWS13 workshop E. Kako W.-D. Möller H. Hayano A. Yamamoto All members of SCRF WG November 14, 2013.

Industrial Participation & SRF Infrastructure at Fermilab Phil Pfund with input from Harry Carter, Rich Stanek, Mike Foley, Dan Olis, and others.

Bunch Separation with RF Deflectors D. Rubin,R.Helms Cornell University.

U.S. Plan for Cavity Production Bob Kephart ALCPG09/GDE Sep 30, 2009.

Status of the SPL study R. Garoby – 25/11/2010 Fifth SPL Collaboration Meeting November 2010 / CERN.

BEAMLINE HOM ABSORBER O. Nezhevenko, S. Nagaitsev, N. Solyak, V. Yakovlev Fermi National Laboratory December 11, 2007 Wake Fest 07 - ILC wakefield workshop.

2 nd Workshop of the IHEP 1.3 GHz SRF R&D Project and 2nd IHEP-KEK 1.3 GHz SRF Meeting Opening Remark J. Gao December 2-3, 2009, IHEP, Beijing, China.

Progress on MICE RFCC Module for the MICE Experiment * Allan DeMello, Nord Andresen, Michael Green, Derun Li, Heng Pan, Steve Virostek, Michael Zisman.

IHEP GHz 9-cell Cavity R&D Status and Plan The Third IHEP-KEK 1.3GHz SC Technology Collaboration Meeting Dec. 7-8, 2010, IHEP, Beijing GAO Jie,

Wakefield/Impedance Considerations for APS and LHC Crab Cavities Haipeng Wang Thomas Jefferson Lab, Newport News Virginia, USA ICFA Beam Dynamics Mini-Workshop.

1 R&D Plans for Impedance Driven Single-Bunch Instabilities (WBS 2.2.1) M. Venturini ( presented by M. Zisman) LBNL LCWS07 DESY, Hamburg May 30 - June.

1 Comments concerning DESY and TESLA Albrecht Wagner Comments for the 5th meeting of the ITRP at Caltech 28 June 2004 DESY and the LC What could DESY contribute.

US Accelerator Industry- Small Business Perspective April 30,2013 US-Japan Advance Science and Technology Symposium Science Projects Homeland Security.

201 MHz Cavity Plans Derun Li Center for Beam Physics Lawrence Berkeley National Laboratory February 11, 2011 MAP Friday Video Conference Meeting.

1 Project X Workshop November 21-22, 2008 Richard York Chris Compton Walter Hartung Xiaoyu Wu Michigan State University.

SRF Collaboration Shekhar Mishra Fermilab. Overview Charge: Does the laboratory make effective use of collaboration and existing SRF capabilities at other.

Thomas Jefferson National Accelerator Facility Page 1 FNAL September 11, 2009 Design Considerations for CW SRF Linacs Claus H. Rode 12 GeV Project Manager.

Fermilab-India Agreements and Collaboration Shekhar Mishra Project-X, International Collaboration Coodinator Fermi National Accelerator Laboratory Batavia,

Thomas Jefferson National Accelerator Facility Operated by the Southeastern Universities Research Association for the U.S. Department of Energy Jefferson.

JPSP-CAS co-operation in Superconducting RF of BEPCII

Peng Sha Institute of High Energy Physics, CAS

WG-1 Session Cavity Performance Cryomodule Performance

Design Fabrication and Processing Group H. Padamsee

Dr. D. Z. LI & Prof. J. GAO Accelerator Center, IHEP

SC spoke cavity for China-ADS 3~10MeV injector

Double Quarter Wave Crab Cavity

Jiyuan Zhai ( IHEP ) TTC Meeting, JLAB, 6 Nov 2012

Summary, Working Group 4 Superconducting RF

ILC/CLIC e+ generation working group

Recent Electron Cloud Studies at CESR and Future Plans

Bunch Separation with RF Deflectors

TTC meeting, Feb. 6-9, 2018, Milan Trouble Shorting of CW Operation of Superconducting Linac for Chinese ADS Yuan He, Yongming Li, Xinmeng Liu, Zheng Gao,

CEPC RF Power Sources System

ERL Main-Linac Cryomodule

Implications of HOMs on Beam Dynamics at ESS

ADS Accelerator Program in China

Overview of SRF system of Ring and Linac （1）

ERL2015 WG4: RF & superconducting RF for ERL

Matthias Liepe Zachary Conway CLASSE, Cornell University June 1, 2009

Summary for the Sources working group

CEPC Waveguide HOM 5-cell and 2-cell Cavity Study and EP Facility

Presentation transcript:

ILC DR RF Cavity – D. Li DR Workshop, KEK, Japan 1 Design for the DR RF cavities and impedance issues Derun Li Center for Beam Physics Lawrence Berkeley National Laboratory February 19, 2007 KEK, Japan

ILC DR RF Cavity – D. Li DR Workshop, KEK, Japan 2 Outline ILC Damping Ring RF RequirementsILC Damping Ring RF Requirements RF Cavity ChoicesRF Cavity Choices ─Superconducting cavity ─Existing successful SC RF cavities that could be used Cornell 500-MHz single cell cavityCornell 500-MHz single cell cavity KEK 500-MHz single cell cavityKEK 500-MHz single cell cavity What has been done so farWhat has been done so far ─Scaled Cornell 500-MHz cavity design to 650-MHz Short range wakefield simulations (SLAC)Short range wakefield simulations (SLAC) Future plansFuture plans SummarySummary

ILC DR RF Cavity – D. Li DR Workshop, KEK, Japan 3 ILC Damping Ring RF Requirements ILC DRs Main Parameters* * M. Venturini, et al, PAC-2007 Proceedings

ILC DR RF Cavity – D. Li DR Workshop, KEK, Japan 4 RF Cavity Choices Existing (successful) SC RF cavity designs Cornell 500-MHz cavity: WG coupler and HOM dampedCornell 500-MHz cavity: WG coupler and HOM damped ─Installed and demonstrated successfullyin CESR-B, 2 nd generation light source (greater than 500-mA) ─Installed and demonstrated successfully in CESR-B, 2 nd generation light source (greater than 500-mA) ─ Very heavy HOM damping ─ Used by other light sources Diamond LS (500-mA), CL (300-mA), SSRC (500-mA) and SSRF (300-mA) HOM Damping

ILC DR RF Cavity – D. Li DR Workshop, KEK, Japan 5 RF Cavity Choices (cont’d) Coax coupler and HOM Damping

ILC DR RF Cavity – D. Li DR Workshop, KEK, Japan 6 RF Cavity Choices (cont’d) KEK 500-MHz (scaled from 509-MHz) SC Cavity DesignKEK 500-MHz (scaled from 509-MHz) SC Cavity Design ─Successfully used at KEK-B and BEPC-II at IHEP, China

ILC DR RF Cavity – D. Li DR Workshop, KEK, Japan 7 KEK-B SC Cavity Achievements at KEK-B (RF frequency = 509-MHz)

ILC DR RF Cavity – D. Li DR Workshop, KEK, Japan 8 Niobium on Copper Cavity One cryomodule: One cryomodule: - Two single-cell Nb-on - Two single-cell Nb-on copper cavities copper cavities - Frequency: 352 MHz - Frequency: 352 MHz - Beam Energy: 2.5 GeV - Beam Energy: 2.5 GeV - Beam current: 500 mA - Beam current: 500 mA 352-MHz Nb-on-Copper RF System Soleil Light Source: Possible candidate, but no plan yet to explore further at the moment

ILC DR RF Cavity – D. Li DR Workshop, KEK, Japan 9 Turn-Key System from Industry Available as a turn-key RF system (based on Cornell design) for light sources (ACCEL)Available as a turn-key RF system (based on Cornell design) for light sources (ACCEL) ─Cryomodule + LLRF controls

ILC DR RF Cavity – D. Li DR Workshop, KEK, Japan 10 What Have We Done So Far SLAC has scaled Cornell 500- MHz design to 650-MHzSLAC has scaled Cornell 500- MHz design to 650-MHz ─Short range wakefield simulations using ABCI (Z. Li) ─No long range (narrow band) wakefield simulations yet I found: ILC-INF-003 NotesI found: ILC-INF-003 Notes

ILC DR RF Cavity – D. Li DR Workshop, KEK, Japan 11 What Have We Done So Far (cont’d) From the ILC-INF-003 Notes

ILC DR RF Cavity – D. Li DR Workshop, KEK, Japan 12 Future Plans Regardless of recent budget newsRegardless of recent budget news For the scaled 650-MHz SC cavity design from Cornell 500-MHz cavity:For the scaled 650-MHz SC cavity design from Cornell 500-MHz cavity: ─Continue the scaled 650-MHz RF cavity design in collaboration with SLAC ─Re-visit the scaled 650-MHz design, check if there is a need for geometry modifications: Beam pipeBeam pipe RF power couplerRF power coupler HOM dampingHOM damping ─Complete long range wakefield simulations  Impedance spectra with HOM damping ─Confirm the impedance meets ILS DR requirements (needs to impedance threshold for the DRs) ─Define RF system requirements: RF power + cryogenics + …

ILC DR RF Cavity – D. Li DR Workshop, KEK, Japan 13 Future Plans In parallel with the work for the scaled Cornell cavityIn parallel with the work for the scaled Cornell cavity ─Lunch collaboration with BEPC-II team at IHEP, Beijing to scale the KEK cavity to 650-MHz IHEP plans to build a spare 500-MHz SC cavity (based on KEK cavity) for BEPC-II from funding from Chinese Academy of ScienceIHEP plans to build a spare 500-MHz SC cavity (based on KEK cavity) for BEPC-II from funding from Chinese Academy of Science Available resources: man power + SRF research facility at IHEPAvailable resources: man power + SRF research facility at IHEP Already received very positive response from IHEP (Drs. J. Wang, J. Gao, W. Pan and G. Wang)Already received very positive response from IHEP (Drs. J. Wang, J. Gao, W. Pan and G. Wang) ─In addition to repeat the proposed work in the previous slide, IHEP could be a potential institute of the cavity prototype for ILC DRs Exploring engineering challenges for the cavity and cryomoduleExploring engineering challenges for the cavity and cryomodule Significant savings (potentially)Significant savings (potentially)

ILC DR RF Cavity – D. Li DR Workshop, KEK, Japan 14 Summary Possible SC RF cavity choices for ILC DRsPossible SC RF cavity choices for ILC DRs Plans for futurePlans for future ─Collaboration with SLAC and other institutes ─Collaboration with IHEP, China We look forward to working with ILC DR collaborators and making more contributions, but (honestly) nothing has been done yet at this moment, the recent ILC budget news does not look like for us to make a rapid progress in near futureWe look forward to working with ILC DR collaborators and making more contributions, but (honestly) nothing has been done yet at this moment, the recent ILC budget news does not look like for us to make a rapid progress in near future