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Status of the SR Lattice Magnets for the NSLS II. John Skaritka Magnet Coordinator Report to the Accelerator Systems Advisory Committee March 26-27, 2009. Magnet Systems Team Acknowledgements. M. Anerella, J. Bengtsson ,J. Cintorino, G.Danby, T. Dilgen, L. Doom, - PowerPoint PPT Presentation
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BROOKHAVEN SCIENCE ASSOCIATES
ASAC Review of NSLS-II Project March 26-27, 20091
Status of the SR Lattice Magnets for the NSLS II
John SkaritkaMagnet Coordinator
Report to the Accelerator Systems Advisory CommitteeMarch 26-27, 2009
BROOKHAVEN SCIENCE ASSOCIATES
ASAC Review of NSLS-II Project March 26-27, 20092
Critical Design and Production Readiness Review BNL, February,23-25, 2009
Magnet Systems Team Acknowledgements
M. Anerella, J. Bengtsson ,J. Cintorino, G.Danby, T. Dilgen, L. Doom,
J. Escallier. R. Faussete, S. Cianci G. Ganetis, W. Guo, R. Gupta, P. He,
A. Jain, J. Jackson, P. Joshi, P. Kovach, S. Kramer, S. Krinsky, M. Loftus,
A. Marone S. Plate, M. Rehak, A. Sauerwald, S. Sharma, C. Spataro,
D. Sullivan, F. Willeke, G. Woods
And many others at BNL, collaborating institutions and industry that have contributed to the success of the magnet systems.
BROOKHAVEN SCIENCE ASSOCIATES
ASAC Review of NSLS-II Project March 26-27, 20093
Magnet Status Talk Outline
• Requirements of the prototype magnet program.
• Progress since the Last ASAC Review
• Results of the Magnet Critical Design Review
• Prototype Magnet Measurements Results and Magnet Optimization
• Production activities to date
• Summary
BROOKHAVEN SCIENCE ASSOCIATES
ASAC Review of NSLS-II Project March 26-27, 20094
Progress made since the Last ASAC Review
•Following earlier ASAC recommendations, The project approved the production of all pertinent prototype magnet types needed for NSLS II with in the budget constraints.•The Magnet Program was presented at 3 major Reviews:
•Comprehensive Review•Doe Review•CD-3 Lehman Review
•The Contractors proceeded to complete the design, manufacture, and deliver all of the prototype magnets that were assigned.
•The Critical Design and Production Readiness Reviews were accomplished on Schedule.
•Magnet Production process has begun with the preparation of a Final Production Strategy, Magnet Requisitions, a Statement of Work and Refined Specifications for each magnet Type.
BROOKHAVEN SCIENCE ASSOCIATES
ASAC Review of NSLS-II Project March 26-27, 20095
Prototype Magnet Production and Testing Status•Storage Ring Magnet Prototype Production Contracts were a placed with 3 vendors in the Spring of 08.
• USA One 90mm Dipole, two 66mm Quadrupoles, one 68mm Sextupole
•China One 90mm Quad, One 76mm Sextupole
•New Zealand One 35mm Dipole,90mm Quad,76mm Sextupole,66mm Quad
•Manufacturing Began in Late Summer 08
•China completed all magnet fabrication, measurements and delivered in January 09
•NZ vendor completed all magnet fabrication and delivered 2 magnets in January and 2 magnets in February. They Mapped the Dipole magnet.
•US vendor completed a Dipole and two Quads in February 09 and shipped the final Sextupole to BNL in early March.
•Measurements have been made on all Magnets and testing shall continue into April.
BROOKHAVEN SCIENCE ASSOCIATES
ASAC Review of NSLS-II Project March 26-27, 20096
Magnet Types in a Typical Cell
Wide Quadrupoles & Sextupoles to accommodate X-ray transport.
Regular Quadrupoles &Sextupoles
Correctors
Dipoles
BROOKHAVEN SCIENCE ASSOCIATES
ASAC Review of NSLS-II Project March 26-27, 20097
Review the Goals of the Prototype Program• To demonstrate that magnets with acceptable Field Quality can be affordable produced by
industry with in programmatic constraints, then using experimental results to establish a refined and conservative set of specifications for the production magnets.
• Evaluate advanced manufacturing methods in industry that maintain required parameters while reducing technical and schedule risk and improving reliability
• To Prototype all the basic magnet types to uncover design and manufacturing problems early in the program so to reduce the risk of problems occurring in full production.
• To establish multiple competent NSLS II magnet producers to reduce the risk of cost increases and schedule delays.
• To demonstrate a test methods and independently verify vendor measurements at BNL
• To do all this by the time of the CDR/PDR scheduled for February 09
BROOKHAVEN SCIENCE ASSOCIATES
ASAC Review of NSLS-II Project March 26-27, 20098
CDR/PRR Findings
• CDR - Critical Design Review– All technical goals of the NSLS II Prototype Magnet program to a level that the Magnet
production process may commence.
• PRR - Production Readiness Review– Procurement strategies, acquisition plans, proposal evaluation criteria are adequate and
the cost and schedule risks of magnet production have been reduced to manageable levels.
– The plans for magnet testing, girder integration and alignment have matured and BNL should be ready when the production magnets arrive.
– The Technical documents such as the Statement of Work and Specifications can be improved.
• Over all, the Magnet Program Can Proceed to the next Level and Production Magnet Procurement efforts should now commence.
Reviewers: Chair Jack Tanabe (SLAC Ret.), Montse Pont (ALBA), Fabrice Marteau (SOLEIL), Satoshi Ozaki (BNL), Jon Sandberg (BNL), Steven Hoey (BNL)
BROOKHAVEN SCIENCE ASSOCIATES
ASAC Review of NSLS-II Project March 26-27, 20099
The NSLS II Dipole Magnet Reference Design
•NSLS II will require 54 each, 35mm aperture dipoles, and 6 each, 90mm aperture dipoles used to service the IR user community.
• All Dipole magnets are wired in series, 2.62 M long with a field strength of 0.4 Tesla . A 3% trim is added for dipole matching and future implementation of Decker distortion.
•A special magnet end feature called a “Nose piece” has been added to extend the magnet gap past the end of the coil. This saves significant of space in the lattice and provides a means to match the fields of the two aperture magnets.
90mm Dipole
35mm Dipole
90mm Dipole
Space Saving Nose Piece on the end of the 35mm Dipole.
BROOKHAVEN SCIENCE ASSOCIATES
ASAC Review of NSLS-II Project March 26-27, 200910
Dipole Assemblies in the SR
35mm dipole magnet integrated to it’s girder, vacuum system and a 3Pole Wiggler
90mm dipole with vacuum system and IR extraction system.
BROOKHAVEN SCIENCE ASSOCIATES
ASAC Review of NSLS-II Project March 26-27, 200911
35mm Dipole Results35mm Dipole being measured at Buckley
Hall probe mapping show acceptable 2-D homogeneity of <1.5 units
BROOKHAVEN SCIENCE ASSOCIATES
ASAC Review of NSLS-II Project March 26-27, 200912
Integral Magnetic Field
-5
-4
-3
-2
-1
0
-30 -25 -20 -15 -10 -5 0 5 10 15 20 25 30
X(mm)
(BL
-BL
0)/
BL
0 [
10
^(-
4)]
Y=-10mm
Y=0mm
Y=+10mm
90mm Dipole ResultsMagnetic Field By
0
0.05
0.1
0.15
0.2
0.25
0.3
0.35
0.4
0.45
-2000 -1500 -1000 -500 0 500 1000 1500 2000
Z(mm)
Tes
la
Transverse Profile at Z=0mm
-4
-3
-2
-1
0
1
2
3
4
-40 -30 -20 -10 0 10 20 30 40
X(mm)
dB
/B0(
un
it)
dB/B0(Y=-10mm)
dB/B0(Y=0mm)
dB/B0(Y=+10mm)
Magnetic Field By
0.394
0.3942
0.3944
0.3946
0.3948
0.395
0.3952
-1500 -1000 -500 0 500 1000 1500
Z(mm)
Tes
la
Initial Results show excellent 2-D and integrated field quality, Studies continue.
BROOKHAVEN SCIENCE ASSOCIATES
ASAC Review of NSLS-II Project March 26-27, 200913
35 and 90 mm Dipole Optimization and Field Matching.
•Adjusting the end chamfer on the 35mm dipole nose will improve integrated field quality.
•Nose Length will be adjusted to match Magnetic lengths.
BROOKHAVEN SCIENCE ASSOCIATES
ASAC Review of NSLS-II Project March 26-27, 200914
Integrated Field no chamfer
Field at Z=0
Integrated Field “lower bound chamfer”
Integrated Field “upper bound chamfer”
Dipole Nose chamfer
Fie
ld Q
ualit
y 10
-4
X Transverse Pole, mm
BROOKHAVEN SCIENCE ASSOCIATES
ASAC Review of NSLS-II Project March 26-27, 200915
Dynamic Aperture and Relaxing Multipole Field Quality • Studies by Weiming Guo show that relaxing some harmonic content tolerances have
negligible effects on dynamic aperture and can be adopted.
• Machine Performance is primarily sensitive to higher order terms in the Large Aperture magnets.
• The studies show that even for the large aperture magnets, relaxing some lower order harmonic terms is tolerable and this was done.
• Prototypes conservatively meet all the higher order term requirements and instruments are available to confirm this during production.
BROOKHAVEN SCIENCE ASSOCIATES
ASAC Review of NSLS-II Project March 26-27, 200916
The NSLS II Quadrupole Magnet Reference Design
•For a two piece yoke, the higher field quads require double coils, but 60 will require a single inner coil reducing cost.
• This technique implemented at Spear-3, Shanghai and IHEP has been successfully implemented into NSLS II prototypes
• The yoke design allowing assemble around the vacuum chamber with negligible effects on field quality has been demonstrated.
•All Metal bussing terminate into a APS style electrical isolation blocks resulting in a hose/maintenance free assembly has been demonstrated.
Standard QuadrupoleWide Quadrupole
•The Quad designs have been optimized to match lattice tuning range requirements yielding significant cost savings.
•Systematic field errors of <3x10-4 @ R=25mm are achievable for all Quads and terms of <1x10-4 are easily obtainable by chamfering.
BROOKHAVEN SCIENCE ASSOCIATES
ASAC Review of NSLS-II Project March 26-27, 200917
BROOKHAVEN SCIENCE ASSOCIATES
ASAC Review of NSLS-II Project March 26-27, 200918
66mm Quadrupole Results
BROOKHAVEN SCIENCE ASSOCIATES
ASAC Review of NSLS-II Project March 26-27, 200919
The NSLS II Sextupole Prototypes
Standard Sextupole Wide Sextupole
•The NSLS II sextupole splits about the mid-plane with a removable center pole has been demonstrated. •This allows simple assembly around the vacuum chamber.•The design of the sextupole is highly constrained by the vacuum chamber resulting in a unique narrow pole design.•Extensive studies show the NSLSII sextupole should not have integrated steering of skew quad trim windings.
Inner pole stabilizer ring locates the removable pole and stiffens the assembly.
BROOKHAVEN SCIENCE ASSOCIATES
ASAC Review of NSLS-II Project March 26-27, 200920
BROOKHAVEN SCIENCE ASSOCIATES
ASAC Review of NSLS-II Project March 26-27, 200921
Mechanical Tolerances vs. Field Quality•Mechanical Measurements of the 90 and 66mm Quadrupoles are underway to compare actual as built Mechanical Tolerances to their effects on field quality.
•These resulting relationships will be used to help the contractors establish minimum acceptable mechanical tolerances.
BROOKHAVEN SCIENCE ASSOCIATES
ASAC Review of NSLS-II Project March 26-27, 200922
68mm Sextupole Results
This magnet showed mechanical assembly problems that were revealed through mechanical inspection and magnetic measurements is being sent back for repair.
BROOKHAVEN SCIENCE ASSOCIATES
ASAC Review of NSLS-II Project March 26-27, 200923
Prototype Magnets Magnets on Girder used in field interaction study.
Measurements were reviewed at the contractor by Animesh Jain and BNL Measurements of these multipoles occurred in January and agree well with vendor measurements.
View of the surface finish on the machined pole faces of the 66mm gap, 40cm long Quadrupole
Advanced manufacturing methods produced accurate pole profiles
BROOKHAVEN SCIENCE ASSOCIATES
ASAC Review of NSLS-II Project March 26-27, 200924
Advanced Measurements Capability
•State of the Art NSLS II production measurements coil Designed by Animesh Jain is complete and now being used to measure prototype multipole magnets.
•Primarily for use with the large aperture magnets, It can be used with standard aperture magnets as well as any combination of multipoles to study interactions.
•The 25+ year old measurements and analytical software system has been completely updated and revised to take full advantage of the new advanced coil design. Testing, debugging and refinement are underway. High order multipoles like b21 and higher can now be evaluated with unprecedented precision.
BROOKHAVEN SCIENCE ASSOCIATES
ASAC Review of NSLS-II Project March 26-27, 200925
Interaction Studies with the 90mm Quadrupole
•The 90mm Quad has skew field error terms with it’s steel base plate due to saturation in the top and bottom back legs but excellent field quality if a non magnetic base plate is used.
•Interaction studies were performed to determine if the magnet design is effected by stray fields to a level that would necessitate a design change.
•Sensitivity to most sources of error were found to have negligible effects on the field.
•It was decided to develop an alternative conservative and improved design for the production magnets.
BROOKHAVEN SCIENCE ASSOCIATES
ASAC Review of NSLS-II Project March 26-27, 200926
nb with plateb specs a with plate a specs0 0.0 0.01 0.0 -111.22 0.03 0.0 3.0 20.8 1.04 0.0 1.0 0.0 0.15 0.0 0.1 -0.6 0.16 -7.9 1.0 0.0 0.17 0.0 0.1 -0.2 0.18 0.0 0.1 0.0 0.19 0.0 0.1 0.0 0.1
10 0.1 0.5 0.0 0.111 0.0 0.1 0.0 0.112 0.0 0.1 0.0 0.113 0.0 0.1 0.0 0.114 0.0 0.1 0.0 0.115 0.0 0.1 0.0 0.116 0.0 0.1 0.0 0.117 0.0 0.1 0.0 0.118 0.0 0.1 0.0 0.119 0.0 0.1 0.0 0.120 0.0 0.1 0.0 0.1
90 mm Quadrupole open Design IssueWith out the steel base plate the large aperture Quadrupole has good field quality but the steel base plate of introduces an asymmetry that introduced large “a” terms. Note the saturated area in the top back leg.
This is resolvable by adding steel to the top of the magnet and has been demonstrated experimentally.
BROOKHAVEN SCIENCE ASSOCIATES
ASAC Review of NSLS-II Project March 26-27, 200927
Additional complexity for the 90mm QuadThe X-Ray extraction chamber has been increasing in size. Here the vacuum chamber is interfering with previous the 90mm Quadrupole.
BROOKHAVEN SCIENCE ASSOCIATES
ASAC Review of NSLS-II Project March 26-27, 200928
90mm Quadrupole Optimized Model
Note that the asymmetry saturation in the magnet’s cross section is eliminated and field quality is improved to meet all field quality requirements to sub unit accuracy.
Margareta Rehak has developed a viable redesign of the 90mm Quadrupole.
This design provides a solution that has no conflicts with the design of the girder or Vacuum system and we are confident that this is achievable in production.
BROOKHAVEN SCIENCE ASSOCIATES
ASAC Review of NSLS-II Project March 26-27, 200929
Progress on Magnet Alignment
•The Precision Alignment Environmental Room has been completed.
•Temperature control of +/- 0.05C has been demonstrated.
•The Vibration Alignment system is operational and system components are under test.
•The Girder equipped with ALBA magnets and precision magnet movers have been installed.
•Survey and Installation studies to simulate the tunnel environment are underway.
BROOKHAVEN SCIENCE ASSOCIATES
ASAC Review of NSLS-II Project March 26-27, 200930
NSLS II Storage Ring Lattice Magnet Schedule
Magnet R&D prototype Fab+Test
Reference Design PDR
Alignment R&D
Preparation of 902
Prototyping RFP
Reference Design IDR
Prototyping magnet Fab. + Test
Production Readiness Review
Production RFP and Award
Magnet Production Contracts
First Article. Magnet Batch test
Magnet Production Complete
Girder Integration and Alignment
Completed magnet girder backlog.
Magnet Girders tunnel install
2008 2009 2010 2011 2012 2013 2014Last Pentant BODCD-2 CD-3
1st Pentant BOD
We Are Here
BROOKHAVEN SCIENCE ASSOCIATES
ASAC Review of NSLS-II Project March 26-27, 200931
• Requisitions for all the production magnets are in the approval process.• A Statement of Work common to all the Major lattice magnet contracts has been
developed and approved.• Interface Control Drawings for the Standard Quads are complete and approved.• All other interface Drawings will be complete in about 2 week.
• All lattice magnet specifications are in the final review process prior to production release.
• Standard Quadrupole Production Requisition documents for the 240 each, 66mm aperture Quads (>$5M) is under review by the Local DOE office.
• All Magnet Contract Solicitations will be ready to go out to bid in April 09
• Preparations of Magnet to Girder assembly and production are underway with all BNL and all infrastructure scheduled to be complete by the end of the 09 calendar year.
Production Procurement Activities are Underway
BROOKHAVEN SCIENCE ASSOCIATES
ASAC Review of NSLS-II Project March 26-27, 200932
Summary of Magnet Status• As of today the Goals of the Prototype Magnet program have been Achieved.
– Field quality requirements can be acceptably achieved for all the Magnets
– Prototypes using advanced manufacturing methods have been successfully built.
– Multiple viable cost effective NSLS II magnet manufactures have been established.
• All but one prototype magnet has given acceptable results and where there were problems we found them all to be easily resolvable manufacturing issues that will be resolved prior to the start of production.
• Production specifications are being optimized to match prototype performance reducing production cost and schedule risks.
• Advanced magnetic measurement and precision alignment systems have been developed, and has been commissioned with excellent results.
• Aggressive efforts are underway to begin the procurement of production magnet.
• The prototype program has been highly successful and we are ready to begin Production!
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