Harry Carter 05/10/02 Slide 1 NLC - The Next Linear Collider Project Linac Girder Studies and Plans NLC MAC Meeting May 9-11, 2002 Linac Girder Studies.

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Presentation transcript:

Harry Carter 05/10/02 Slide 1 NLC - The Next Linear Collider Project Linac Girder Studies and Plans NLC MAC Meeting May 9-11, 2002 Linac Girder Studies and Plans Harry Carter Fermilab, Technical Division RF Technology and Development Group

Harry Carter 05/10/02 Slide 2 NLC - The Next Linear Collider Project Linac Girder Studies and Plans NLC MAC Meeting May 9-11, 2002 Outline Brief Overview of Girders Past Work Done on Girders Work In Progress Future Plans

Harry Carter 05/10/02 Slide 3 NLC - The Next Linear Collider Project Linac Girder Studies and Plans NLC MAC Meeting May 9-11, 2002 Brief Overview of Girders Zero Design Report –Review Girder System Concept Describe System Components –List Girder Requirements Comparison of Existing Girders –Girder Examples and Specifications Girders for NLCTA –Existing NLCTA System –Plans for 8-Pack System Girder A System Girder B System

Harry Carter 05/10/02 Slide 4 NLC - The Next Linear Collider Project Linac Girder Studies and Plans NLC MAC Meeting May 9-11, 2002 ZDR: Girder Conceptual Layout x y z X-Y Roll X-Z Yaw Y-Z Pitch 5 degrees of freedom (x,y, pitch, roll, yaw) Range of motion+/- 1.5 mm Max travel per step 0.25  m

Harry Carter 05/10/02 Slide 5 NLC - The Next Linear Collider Project Linac Girder Studies and Plans NLC MAC Meeting May 9-11, 2002 NLC Girder Requirements Requirements: Structure-to-Structure on spaceframe positioned to within  m Spaceframe-to-Spaceframe on girders positioned to within 70  m Initial Girder-to-Girder positioning to within 75  m, then final alignment by beam-based system

Harry Carter 05/10/02 Slide 6 NLC - The Next Linear Collider Project Linac Girder Studies and Plans NLC MAC Meeting May 9-11, 2002 Comparison of Existing Girders Linear Colliders: –NLC –CLIC –SLC Synchrotron Light Sources –SLS (Swiss Light Source – Switzerland) –APS (Advanced Photon Source – ANL) –ESRF (European Synchrotron Radiation Facility – France) –SPRING 8 (Super Photon RING 8 GeV –Japan) –VISA (Visible to Infrared SASE Amplifier – LCLS at LLBL)

Harry Carter 05/10/02 Slide 7 NLC - The Next Linear Collider Project Linac Girder Studies and Plans NLC MAC Meeting May 9-11, 2002 Comparison of Existing Girders NLCCLIC SLS APS ESRF FFTBCTF2 DEGREES OF FREEDOM GIRDERS SYSTEM3 Cams 3 Jacks5 Cams Jacks Jacks MOTION RANGE+/- 1 mm+/- 5 mm+/- 2 mm POSITIONING ACCURACY5  m10  m 3  m +/- 150  m 10  m rel. relative pos 100  m Km POSITION Pots HLSHLS HPS HLS CONTROLLVDTTILTmeter Dig. encoder Plates BPMBPMBPM ALIGNMENT ON GIRDERLVDTs Laser interf. Laser interf.CMM ELEMENTS ON GIRDERSMagnetsMagnetsMagnets Magnets Magnets MOTORSSteppingSteppingMotor worm Harm. drivePlanetary

Harry Carter 05/10/02 Slide 8 NLC - The Next Linear Collider Project Linac Girder Studies and Plans NLC MAC Meeting May 9-11, 2002 SLS Girder System Alignment: –Laser interferometer –CMM –HLS (+/- 3  m repeatability) –HPS (+/- 1  m repeatability)

Harry Carter 05/10/02 Slide 9 NLC - The Next Linear Collider Project Linac Girder Studies and Plans NLC MAC Meeting May 9-11, 2002 Girders for NLCTA Existing System at NLCTA –Present layout (elevation view) –Describe nomenclature Girder A System –Actually three NLCTA-like “strongbacks”, A1’-A3, each containing three 0.6 meter long high gradient (FXB) structures –Slightly different spacing of quadrupoles to accommodate three structures per “strongback” Girder B System –One 6.0 meter long NLC-style girder containing six 0.9 meter long prototype accelerating (FXC) structures –5-axis motion system –Horizontal leveling system Eight-Pack Project Structures Layout in NLCTA

Harry Carter 05/10/02 Slide 10 NLC - The Next Linear Collider Project Linac Girder Studies and Plans NLC MAC Meeting May 9-11, 2002 Existing System at NLCTA

Harry Carter 05/10/02 Slide 11 NLC - The Next Linear Collider Project Linac Girder Studies and Plans NLC MAC Meeting May 9-11, 2002 Girder A System

Harry Carter 05/10/02 Slide 12 NLC - The Next Linear Collider Project Linac Girder Studies and Plans NLC MAC Meeting May 9-11, 2002 Girder B System

Harry Carter 05/10/02 Slide 13 NLC - The Next Linear Collider Project Linac Girder Studies and Plans NLC MAC Meeting May 9-11, 2002 Eight-Pack Project Structures in NLCTA NLC Prototype Girder (Girder B) High Gradient Structures On NLCTA-type Strongbacks (Girder A)

Harry Carter 05/10/02 Slide 14 NLC - The Next Linear Collider Project Linac Girder Studies and Plans NLC MAC Meeting May 9-11, 2002 Past Collaboration Work Done on Girders Stability Studies –Performed approximately two years ago at SLAC by C. Adolphsen Design Work and Studies –G. Bowden girder mover system design –M. Browne, et. al., “Mover Electronics” study and cost estimate in May st Engineering team meeting on girders was held at SLAC in Feb. ’02 –Engineering team members –Describe goals of meeting

Harry Carter 05/10/02 Slide 15 NLC - The Next Linear Collider Project Linac Girder Studies and Plans NLC MAC Meeting May 9-11, 2002 Past Collaboration Work : Girder Engineering Team Team Members –FNAL: C. Boffo, E. Borrisov, H. Carter –SLAC: C. Rago, N. Yu –Consultants: C. Adolphsen, G. Bowden, J. Cornuelle, K. Jobe, D. Schultz Feb. ’02 Meeting Goals –Discuss Specifications for Girders –Define FNAL Scope of Work –Discuss Girder Installation Details –Discuss Schedule

Harry Carter 05/10/02 Slide 16 NLC - The Next Linear Collider Project Linac Girder Studies and Plans NLC MAC Meeting May 9-11, 2002 Work In Progress Girder A System –Design –Schedule Vibration Studies –Concerns about flow induced vibrations and vibrations from other water system sources in structures are being addressed (A. Seryi, T. Himel, et.al).

Harry Carter 05/10/02 Slide 17 NLC - The Next Linear Collider Project Linac Girder Studies and Plans NLC MAC Meeting May 9-11, 2002 Work in Progress: Girder A Schedule Highlights* Task Name Duration Start Finish Girder A (actually A1+A2+A3+A1’) 324dMon 4/8/02Fri 7/3/03 Design, Fabricate, and Assemble Girder A151dMon 4/8/02Fri 6/17/02 Mount FXB-001 on Girder A1 and 9dMon 8/12/02Fri 8/22/02 ship to SLAC for NLCTA Testing FXB-001 and Girder A1 Arrives at SLACThu 8/22/02 Design, Fabricate, and Assemble Girders A2, A3, and A1’75dMon 5/20/02Fri 8/9/02 Mount FXB-002,-003, & -004 on Girder A2 and Ship Girder A2 to SLAC 9dMon 11/25/02Thu 12/5/02 Girder A2 Arrives at SLAC Thu 12/5/02 Mount FXB-005,-006, & -007 on Girder A3 and Ship Girder A3 to SLAC 9dMon 3/10/03Thu 3/20/03 Girder A3 Arrives at SLAC Thu 3/20/03 Mount FXB-008,-009, & -010 on Girder A1’ and Ship Girder A1’ to SLAC 9dMon 6/23/03Thu 7/3/03 Girder A1’ Arrives at SLAC Thu 7/3/03 * Excerpted from MS Project Schedule, “FNAL Schedule in Support of 8-Pack Project”, H. Carter 5/02/02

Harry Carter 05/10/02 Slide 18 NLC - The Next Linear Collider Project Linac Girder Studies and Plans NLC MAC Meeting May 9-11, 2002 Work in Progress: Vibration Studies Present results indicate vibrations in structures with amplitudes ~1 micron or less are primarily NOT flow induced in origin but rather come from other water system sources (pumps, etc.).

Harry Carter 05/10/02 Slide 19 NLC - The Next Linear Collider Project Linac Girder Studies and Plans NLC MAC Meeting May 9-11, 2002 Vibration Work: Additional Studies Some Concerns: –Vibration coupling, even tiny, from RF structure to a quadrupole* (nm tolerance) –The full length girder should be designed so that damping is increased and low F resonances are avoided –The cooling water supplying system may need to be made more quiet => Need to study What is feasible?

Harry Carter 05/10/02 Slide 20 NLC - The Next Linear Collider Project Linac Girder Studies and Plans NLC MAC Meeting May 9-11, 2002 Future Plans Near Term (next 6-8 months): Continue Vibration Studies at SLAC and Initiate Studies at FNAL Begin Production of Type-A Girders R&D for Girder B –Repeat C. Adolphsen’s girder work here at Fermilab (at MS5) as a basis for beginning the R&D effort. Motion Control/Movers- ($$$) –Purchase/Construct one or more girder movers and test for accuracy and positional repeatability. Hydrostatic Leveling System (HLS)- ($$$) –Acquire a system and conduct measurements on it. Structure Mockups –Construct six 0.9 meter long FXC-style structure mockups to facilitate girder studies Longer Term (12-24 months): Complete R&D Work and Design, Construct, and Test Girder B

Harry Carter 05/10/02 Slide 21 NLC - The Next Linear Collider Project Linac Girder Studies and Plans NLC MAC Meeting May 9-11, 2002 Girder B Schedule Highlights* Task Name Duration Start Finish Girder B (NLC Prototype Girder)450dMon 6/3/02Fri 2/20/04 Conduct R&D for Girder B180dMon 6/3/02Fri 2/7/03 Design Girder B 60dMon 2/10/03Fri 5/2/03 Procure Parts for Girder B 90dMon 5/5/03Fri 9/5/03 Construct Girder B 90dMon 9/8/03Fri 1/9/04 Test Girder B 30dMon 1/12/04Fri 2/20/04 Girder B Completed Fri 2/20/04 Install FXC Structures on Girder B 10dWed 5/5/04Tue 5/18/04 Align FXC Structures on Girder B 10dWed 5/19/04Tue 6/1/04 Ship Girder B Assembly to SLAC 10dWed 6/2/04Tue 6/15/04 Girder B Assembly Arrives at SLAC Tue 6/15/04 * Excerpted from MS Project Schedule, “FNAL Schedule in Support of 8-Pack Project”, H. Carter 5/02/02

Harry Carter 05/10/02 Slide 22 NLC - The Next Linear Collider Project Linac Girder Studies and Plans NLC MAC Meeting May 9-11, 2002 FNAL Schedule in Support of 8-Pack Project Review of Schedule –Very little slack time in schedule –Failure to meet milestones = schedule slippage –Insufficient funding = schedule slippage Funding Scenarios and Consequences –Original FY03 Guidance: $4.0M –FY03 Bare Min. to Meet Schedule: $3.3M –Most Recent FY03 Guidance is Flat Funding (same as FY02): $2.0M Shortfall:$1.3MWhat do we give up?

Harry Carter 05/10/02 Slide 23 NLC - The Next Linear Collider Project Linac Girder Studies and Plans NLC MAC Meeting May 9-11, 2002 FNAL Schedule in Support of 8-Pack Project

Harry Carter 05/10/02 Slide 24 NLC - The Next Linear Collider Project Linac Girder Studies and Plans NLC MAC Meeting May 9-11, 2002 Summary Development and construction an NLC prototype girder system containing all the requisite features represents a significant challenge to the FNAL collaboration of the NLC project. We are prepared to meet this challenge. We are poised to begin R&D efforts at Fermilab and this effort will increase substantially over the next six months, culminating in a complete design specification and the onset of construction of a prototype. A schedule leading to this goal has been presented. Funding will more than likely become a critical issue for this work to progress in a timely manner.