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Delivery Ring AIP

Delivery Ring AIP. Jerry Annala Dec 12, 2012. Scope. Beam line aperture improvements Beam line power supply upgrades Delivery Ring injection Delivery Ring abort system Collider equipment removal Delivery Ring power supply upgrades Infrastructure Instrumentation upgrades.

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Delivery Ring AIP

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  1. Delivery Ring AIP Jerry Annala Dec 12, 2012

  2. Scope • Beam line aperture improvements • Beam line power supply upgrades • Delivery Ring injection • Delivery Ring abort system • Collider equipment removal • Delivery Ring power supply upgrades • Infrastructure • Instrumentation upgrades

  3. Beam line aperture Tev. F0 Lambertsons V714 C-magnets HV102 dipoles Large aperture quads F-17 C-Magnets MI-52 Lam. / V701 C-magnets HV100 dipoles Jim Morgan Larger trims

  4. Beam line apertures

  5. Injection Septum Injected beam Modified version (wider pole gap) of Booster BSE Technical Division T. J. Gardner Sasha Makarov GueorguiVelev Circulating beam 40 pi-mm-mr Jim Morgan

  6. Injection Septum

  7. Booster Extraction Septa

  8. Injection Large Quad 40 pi-mm-mrad Jim Morgan and Steve Werkema

  9. Injection kicker aperture 40 pi-mm-mrad Jim Morgan

  10. Injection and Abort Kicker Flourinert skid Magnet Power Supply

  11. the Delivery Ring Brian Drendel

  12. Abort System

  13. Collider equipment removal

  14. Functional Requirements • Provide adequate aperture for 8 GeV primary proton beam to the new M3 beam line (through P1, P2, and M1 line) • Un-normalized transverse emittance – 2 p-mm-mrad • Dp/p < .23% • Provide an injection system capable of accepting beam specified above at an average rate of 12 Hz with a burst rate of 100 Hz • Provide an abort system capable of removing beam within 10 msec of a detected fault condition • Provide an un-normalized ring admittance of 40 p-mm-mrad and a Dp/p of .23%

  15. Functional Requirements • Provide the electrical infrastructure improvements necessary in the existing antiproton source buildings to support the operation of g-2 and Mu2. • Provide needed upgrades to power supply systems that use obsolete components or have insufficient regulation capabilities. • Provide instrumentation suitable for use for g-2 and Mu2e operation • SEMS with reliable high gain amplifiers • BLMs that can be used with high intensity proton beams • BPMs that function with 2.5 MHz beam structure with expected repetition rates • Toroids general maintenance needed for reliability

  16. Project Plan • Baseline Costs

  17. Escalation and Contingency • Escalation • M&S = 2.7%/year • SWF = 2.7%/year • Contingency Average = 30%

  18. Funding Profile

  19. Labor by Categories

  20. FY 13 M&S • Prepare magnets for P1, P2, M1 aperture improvement • Procure hardware for kicker controls

  21. FY 14 M&S • Riggers for beam line magnet installation • Vacuum parts for beam line magnet installation

  22. FY 15 M&S

  23. Milestones

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