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Booster Beam Notching Installation Update PIP Talk

Booster Beam Notching Installation Update PIP Talk. February 20, 2013. Salah Chaurize. Notching Pre-Shutdown. A 3 bucket gap is created using two kickers located at Long 5 and Long 12 Notcher – A High Voltage(55kV) Kicker at Long 5 Noker - Lower Voltage Kicker (20-40 kV) at Long 12

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Booster Beam Notching Installation Update PIP Talk

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  1. Booster Beam Notching Installation UpdatePIP Talk February 20, 2013 Salah Chaurize

  2. Notching Pre-Shutdown • A 3 bucket gap is created using two kickers located at Long 5 and Long 12 • Notcher – A High Voltage(55kV) Kicker at Long 5 • Noker - Lower Voltage Kicker (20-40 kV) at Long 12 • Used to clean out remnant Notched Beam in buckets At 700 MeV • Beam is kicked vertically into collimator region at Long 6 and Long 13 with upstream gradient magnets seeing some deposited notched beam loss. • The notch timing and synchronization is accomplished by modules in the Booster LLRF Room and local timing modules. • Beam notch for non-cogged cycles occurs at 400 Mev • Cogged notch occurs close to 700 MeV

  3. Notching Post Shutdown • A 3 bucket gap is created using three 1M Long kickers located at Long 12 • 3 Notchers – High Voltage(46kV) Kicker at Long 12 • Notcher converted to NOKA • Noker converted to NOKB • Build/Commission new NOKC. • Beam is kicked Horizontally into new absorber at Long 13 • The notch timing and synchronization is accomplished by modules in Booster LLRF Room. (Same as before) • Extra Wide Aperture BPM and Short Corrector Spool needed. • Beam notch for non-cogged cycles occurs at 400 Mev. (Same as before) • Cogged notch occurs close to 700 MeV. (Same as before)

  4. The Notch 3 Bucket Notch Width non-cogged Cycle Notch @ 400MeV Cogged Cycle Notch@ ~700MeV Extraction Loss

  5. L5 Notcher Current LocationNotcher magnet will be moved to L12Vertical Pinger magnet will be removed from L12 and put here in its place Hor. Pinger Notcher

  6. L5 NotcherPower supply components such as theseWill need to be moved to support Long 12 region CX1168 tube cabinet CX1168 tube Low Level equipment

  7. L12 Pre-shutdown MKS04 Ver. Pinger Noker De-commissioned Horz. Pinger Beam direction

  8. L12 Post Shutdown MKS04 NOKC NOKB NOKA

  9. Kicker magnets rotated to kick Horizontally

  10. Kicker magnets rotated to kick Horizontally Kicker Magnet Beam tubes exposed for alignment

  11. L12 Noker& Extraction Kicker MKS04Power supply components such as thesewill need to be installed/relocated to support notch2 & notch3in east Booster Gallery CX1168 tube cabinet Beam sync Modules and other NIM crate Support modules.

  12. Make Room For 2 more systemsIn East Gallery

  13. Current ConfigurationIn East Gallery NOKB NOKA NOKC goes Here

  14. Current ConfigurationIn East Gallery Noker PS Charging Resistors and load resistors

  15. Current ConfigurationIn East Gallery NIM Gate Modules Altera Based CAMAC Controls and Ramp Cards LeCroy Delay modules & CAMAC Trigger

  16. Current ConfigurationIn East Gallery Absorber Motion Controls

  17. Current ConfigurationIn East Gallery NOKC NOKA MKS04 NOKB

  18. Long 13 Standing at downstream end of absorber After Before Beam direction

  19. Long 13 Notched beam absorber Before After Beam direction

  20. Long 13 New absorber

  21. Looking upstream towards L13 30” 30” Before After 75” 10 ‘

  22. Need to kick beam horizontally at L12 with beam Nokers to create a notch in the beam. • Current aperture restriction at S12 is BPM plates and upstream and down stream bellows which are all 4.5in. Reason to redesign S12 Spool piece

  23. New Extra Wide aperture BPM will give us 5 in aperture with new spool. • New spool would use some of original spool design without the standard BPM components inside and larger aperture bellows at magnet spool flanges Reason to redesign S12 Spool piece

  24. Extra Wide Aperture BPM

  25. Extra Wide Aperture BPM

  26. S12 CorrectorOriginal Standard aperture 4.5 Inch

  27. S12 CorrectorNew 5” Aperture Spool

  28. Preliminary Results and Commissioning • Using 2 Nokers to create gap in beam at 400MeV • S12 New BPM giving data but needs some gain tweaks • Absorber motion controls working well. • Notched beam loss is currently low due to low intensity running but is as expected.

  29. Preliminary Results and Commissioning

  30. Preliminary Results and Commissioning

  31. Preliminary Results and Commissioning NOKA(CH1) & NOKB(CH2) Notched Bunches

  32. Thanks to:-L13 Notched Beam Absorber Assembly-PPD Experiment Fabrication- L13 Absorber Build and AssemblyD.Erickson, J. Judd, W. Blaszynski, W. GatfieldV. Sidorov - L13 Absorber Mechanical DesignAPC Energy Deposition Simulations by- N.Mokhov, I. Tropin, S.DrozhdinM. Coburn L13 Absorber Motion Controls-L12, S12, L13 Upgrade Support-Mechanical Support/ Instrumentation Groups – L13/S12 BPM and CorrectorR. Reily, B. Ogert, J. Kubinski, J. Briney ,D. Wallace, J. FitzgeraldControls Group CAMAC modulesBooster Techs - Power supply and load reconfiguration New timing module build and support electronics R. Mraz, T. Boes, D. DickOperations - Database work , O. Marshall, R. JonesAMG-L12, S12,L13 alignmentRadiation Safety – Joel FulghamConsultation – J. Lackey, B. PellicoMachine Shop, Welding ShopMany More I missed

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