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Component Development MAP Winter Meeting, 3/4/20121Alan Bross.

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Presentation on theme: "Component Development MAP Winter Meeting, 3/4/20121Alan Bross."— Presentation transcript:

1 Component Development MAP Winter Meeting, 3/4/20121Alan Bross

2 Outline – Program Overview – Progress & goals – Plans – Summary MAP Winter Meeting, 3/4/20122Alan Bross

3 Component Development L2 Organization  Normal Conducting RF  Derun Li, LBNL, RF scientist for the MuCool program  Superconducting RF  Don Hartill, Professor Cornell University  Magnets  John Tompkins, Deputy Head Fermilab (TD) Magnet Systems Department  Targets and Absorbers  Kirk McDonald, Princeton University & co-spokesperson of the MERIT experiment  MuCool Test Area Coordinator  Yagmur Torun, Professor Illinois Institute of Technology MAP Winter Meeting, 3/4/20123Alan Bross

4 Primary Goals Establish the viability of the concepts and components that will be used in the design reports – Neutrino Factory Reference Design Report (NF-RDR) – Muon Collider Design Feasibility Study Report (MC- DFSR) Establish the engineering performance parameters to be assumed in the design studies Provide a good basis for cost estimates. MAP Winter Meeting, 3/4/20124Alan Bross

5 NCRF Significant degradation in maximum stable operating gradient with applied B field MAP Winter Meeting, 3/4/20125 805 MHz RF Pillbox data – Curved Be windows – E parallel B – Electron current/arcs focused by B Degradation also observed with 201 MHz cavity – Qualitatively, quite different Details will be presented in RF parallel Alan Bross

6 NCRF Program R&D Strategy  Technology Assessment (continuation of existing multi- pronged program) – Surface Processing Reduce (eliminate?) surface field enhancements, field emission – SCRF processing techniques » Electro-polishing (smooth by removing) + HP H 2 O rinse – More advanced techniques (Atomic-Layer-Deposition (ALD)) » Smooth by adding to surface (conformal coating @ molecular level) – Materials studies: Use base materials that are more robust to the focusing effects of the magnetic field Cavity bodies made from Be or possibly Mo – Magnetic Insulation Inhibit focusing due to applied B – High-Pressure Gas-filled (H 2 ) cavities MAP Winter Meeting, 3/4/20126 Vacuum Alan Bross

7 Phase I RF Program (2+ year) Complete tests on Magnetic Insulation – Tests completed - concept dropped (DnS’d) Materials tests: Be – Button cavity test (Y. Torun) – Be wall cavity (D. Li) Beam tests of HP H 2 filled cavity (Yonehara) All-Seasons Cavity tests (AB) Future MICE 201 MHz production cavity test New 805 MHz pillbox (Z. Li) 201 MHz tests in higher B field – Need new SC magnet - FY2014 MAP Winter Meeting, 3/4/20127Alan Bross

8 RF Test Facility MuCool Test Area – RF Power 201 MHz (5MW) 805 MHz (12 MW) – Class 100 clean room – Instrumentation Ion counters, scintillation counters, optical signal, spectrophotometer – 4T SC Solenoid 250W LHe cryo-plant – 400 MeV p beam line MAP Winter Meeting, 3/4/20128Alan Bross

9 Be Button Tests Alan BrossMAP Winter Meeting, 3/4/20129 Copper buttons vs. Yagmur Torun

10 Be-Wall Cavity Alan BrossMAP Winter Meeting, 3/4/201210 Derun Li

11 New 805 MHz Pillbox Alan BrossMAP Winter Meeting, 3/4/201211 Zhenghai Li

12 High-Pressure H 2 filled Cavity Alan BrossMAP Winter Meeting, 3/4/201212 Katsuya Yonehara

13 All-Seasons Cavity Alan BrossMAP Winter Meeting, 3/4/201213 Tested at B=0 & B=3T – Two cycles: B 0, B 3, B 0 & B 3 No difference in Max Stable Op. Gradient – RF pickup did not work Gradient  25 MV/m ± 5% Paradigm shift for vacuum RF in B?

14 MICE 201 MHz Production Cavity Test Alan BrossMAP Winter Meeting, 3/4/201214 Ready for final assembly in May 2012

15 MICE RFCC lite Test in MTA Alan BrossMAP Winter Meeting, 3/4/201215

16 Magnet R&D - Overview Neutrino Factory and Muon Collider accelerator complexes require magnets with quite challenging parameters HTS solenoid R&D to assess the parameters that are likely to be achieved – What is the highest practical achievable solenoid field & what is the R&D required before these solenoids can be built? Magnet design R&D for collider ring and IR magnets that have to deal with the expected high level of energy deposition from  decay electrons – What is the optimal design for the collider ring magnets that will enable them to operate in the presence of the decay electrons? Paper studies only (with D&S group) Fast Ramping Magnets utilized in rapid-cycling synchrotron for final acceleration for the MC MAP Winter Meeting, 3/4/201216Alan Bross

17 Magnet R&D – HTS HTS Solenoid – Develop functional specifications for the high field solenoid & perform tests MAP Winter Meeting, 3/4/201217Alan Bross HTS conductor cable R&D Tengming Shen HTS pancake magnet tests Ramesh Gupta

18 Magnet R&D  Collider Ring & Acceleration Collider Ring Magnets (A. Zlobin) – Produce effective conceptual designs for IR quads & dipoles Collider ring dipoles and quads Fast Ramping Magnets (400 Hz) (D. Summers) – Building prototypes with goal to produce 30 cm test magnets MAP Winter Meeting, 3/4/201218Alan Bross

19 400 Hz prototype Alan BrossMAP Winter Meeting, 3/4/201219

20 Targetry This year has been primarily limited to paper studies – Nozzel & jet (Y. Zhan) – MHD Simulations (R. Samulyak) – Particle production (X. Ding) – Energy management (N. Souchlas) – Magnet configurations (R. Weggel) MAP Winter Meeting, 3/4/201220Alan Bross

21 Component Development RF Plans/Milestones MAP Winter Meeting, 3/4/201221Alan Bross MILESTONEDELIVERABLEINSTITUTION RF / MTA RF-1Complete Be button testMAP note; Q2FNAL RF-2 Complete 2nd HPRF cavity beam test Draft Journal paper; Q4FNAL RF-3 Prepare MTA for MICE production cavity test Inspection; Q3FNAL RF-4Upgrade CAMAC DAQ systemInspection; Q2IIT RF-5 Analyze pillbox cavity Be button data MAP Note; Q2IIT RF-6Analyze box cavity dataMAP Note; Q1IIT RF-7 Analyze 2 nd HPRF beam test data MAP Note; Q4IIT RF-8Analyze MTA magnet map dataMAP Note; Q1IIT RF-9 Finish MTA environmental monitoring setup Inspection; Q1IIT RF-10 Test acoustic sensors on RF cavity Presentation; Q3IIT RF-11Support MTA RF R&DInspection; ongoingJLab RF-12Complete Be-wall cavity designEngineering note; Q3LBNL RF-13Support MTA RF R&DInspection; ongoingLBNL RF-14Support MTA RF R&DInspection; ongoingANL RF-15 Complete RF cavity & coupler waveguide design Design review; Q2SLAC RF-16 Complete cavity drawing package Engineering note; Q3SLAC RF-17 Cavity assembly & cold test, and assist in high power test at MTA MAP note; Q4SLAC

22 Component Development Magnet Plans/Milestones MAGNETS MAG-1 Wind, react, and test small-scale Bi- 2212 coil which has all the key elements of a 30T insert MAP Note; Q4FNAL MAG-2Document 400Hz, 1.8T dipole resultsConf. paper; Q2U. Miss MAG-3 Develop BH curves for grain oriented steel with Epstein frame MAP note; Q3U. Miss MAG-4 Produce OPERA-2D map for rap. cycling dipole MAP note; Q3U. Miss MAG-5 Develop code to handle grain oriented steel MAP note; Q3U. Miss MAG-6 Complete 2 nd round magnet measurements MAP note; Q2U. Miss MAG-7Make 2 nd rap. cycling dipole prototypeInspection; Q4U. Miss Alan BrossMAP Winter Meeting, 3/4/201222

23 Component Development Targetry Plans/Milestones TARGET T-1 Design integrated coil/shielding config. for target IPAC12 paper; Q3BNL T-2Continue target area design studiesMAP note; Q3Princeton T-3Contribute to IDS-NF target designReport; Q4Princeton T-4Develop Hg target system concepts for IDS-NF IPAC paper; Q3ORNL Alan BrossMAP Winter Meeting, 3/4/201223

24 Summary The RF program continues a multi-pronged attack on the technology – The MTA is now a smoothly running facility that is unique in the world – Magnetic Insulation (voted off the island) – Materials studies SCRF processing Cavity materials (Be) – High-pressure H 2 filled RF exposed to p beam – Continuing 201 MHz program MICE production single-cavity test system Future studies @ higher B field MAP Winter Meeting, 3/4/201224Alan Bross

25 Summary II Magnet program is primarily addressing cooling issues – Final cooling via very-high-field HTS solenoids But also addresses the other critical magnet issues for the MC complex – Ring magnets Open-plane dipoles, quads, etc – Acceleration Fast-ramping magnets Targetry has mostly been limited to paper studies due funding limitations. MAP Winter Meeting, 3/4/201225Alan Bross

26 END MAP Winter Meeting, 3/4/201226Alan Bross Now lets gone on to the“Meat” Well, coffee first

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