F Proton Plan Eric Prebys, FNAL Accelerator Division.

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F Proton Plan Eric Prebys, FNAL Accelerator Division.
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Presentation transcript:

f Proton Plan Eric Prebys, FNAL Accelerator Division

f AAC Review, May 10, Prebys 2 Proton Plan Charge  Develop a plan for a reasonable set of improvements and operational initiatives to maximize proton delivery to NuMI and the Booster Neutrino Beam (BNB)  Estimate the budget and timeline for these improvements.  Estimate proton delivery to both beam lines if the Plan proceeds on schedule.  Note:  This project precedes other work that must be done to support the NoVA program  This project precedes a proton driver or other significant improvements to the complex that are under discussion.

f AAC Review, May 10, Prebys 3 Staged Approach to Neutrino Program  Present Proton Plan:  The implementation of slip stacking to NuMI in the Main Injector will gradually increase NuMI intensity to 4-5E13 protons to NuMI per 2.2 second cycle or about 3.5E20 p/yr. (~400 kW)  This will increase by ~20% as protons currently used for pbar production become available.  The Booster rep. rate and efficiently must increase to accommodate this, and it is hoped that there will be enough excess capacity to continue to operate the BNB at the 2E20 p/yr level throughout this period.  Beyond the Proton Plan (post-collider, “SNuMI” Nova era):  Preload protons in the Recycler to reduce the Main Injector cycle time. ~700 kW  Use the accumulator to momentum stack protons, prior to loading in the Recycler. ~1 MW  Build a dedicated proton driver? ~2 MW This talk

f AAC Review, May 10, Prebys 4 Some Numbers to Keep in Mind  At 120 GeV, 100 kW is roughly  1E20 protons/year  1 Booster  2E16 peak proton intensity out of Booster  ABSOLUTE limit of this Proton Source:  5E12 15Hz 120 GeV 1.5E21 protons/year 3E16 pph out of Booster This is about ~2x the present proton plan *not including prepulses.! Add 2Hz/(MI cycle) for total rate

f AAC Review, May 10, Prebys 5 Limits to Proton Intensity  Total proton rate from Proton Source (Linac+Booster):  Booster batch size ~4-5E12 protons/batch  Booster repetition rate 15 Hz instantaneous Prior to shutdown: 7.5Hz average (injection bump+RF)  Beam loss Damage and/or activation of Booster components Above ground radiation  Total protons accelerated in Main Injector:  Maximum main injector load Six “slots” for booster batches (3E13) Up to ~11 with slip stacking ( E13) Possible RF stability limitations (under study)  Cycle time: 1.4s + loading time (1/15s per booster batch) Historically our biggest worry

f AAC Review, May 10, Prebys 6 Review: Main Injector Loading  The Main Injector has six usable “slots”, into which Booster batches may be placed.  More batches may be loaded, using “slip stacking”, in which an initial batch in the Main Injector is accelerated such that a subsequent batch will be at a slightly different energy.  The two will then drift together and can be captured as a single batch (with at least twice the longitudinal emittance).

f AAC Review, May 10, Prebys 7 Main Injector Loading  Initial NuMI operation (“2+5”):  Two batches slip stacked for antiproton production.  Five more batches loaded for NuMI  All will be accelerated together.  This is the current standard operation.  Ultimate NuMI operation (“2+9”):  Five batches will be loaded into the Main Injector, leaving one empty slot.  Six more batches will be loaded and slipped with the first to make two for antiproton production and 9 for NuMI.

f AAC Review, May 10, Prebys 8 Proton Plan Developments Since Last Ops Review  AD Review, July 2005  Director’s Review, August 2005  “Baseline”, September 2005  Since baseline:  Plan tracked with monthly PMG meetings  Change control through formal change request (CR) procedure. So far, five complete CR’s with three more in process

f AAC Review, May 10, Prebys 9

f 10 Plan Strategy  Increasing the proton delivery from the Booster to NuMI and MiniBooNE  Increase maximum average Booster repetition rate.  Increase acceptance by improving orbit control and beam quality.  Increasing the beam intensity in the Main Injector for NuMI  Main Injector multi-batch operation.  Slip stacking in Main Injector (requires injection kicker improvement and possibly some RF improvements).  Improving operational reliability and radiation limitations  Linac pulsed quad supplies  Booster RF upgrades, possibly significant  Alleviate Low Energy Linac 200 MHz PA (“7835”) supply problem  Organized along the Run II model  “campaign” rather than “project”

f AAC Review, May 10, Prebys 11 Summary: Significant Elements of Plan  Linac  Stockpile two year supply of spare 200 MHz power amplifier tubes (7835’s), in the event of an interruption in supply  Characterize and improve Low Energy Linac Low Level RF  Booster:  Replace and reconfigure injection bump (ORBUMP) system.  Relocate 8 GeV dump from Booster tunnel to MI-8 transfer line  Make Booster robust to 9 Hz, and understand requirements to go to 15 Hz  Design, build, and install new corrector system  Main Injector:  Replace seven quadrupoles with increased aperture versions, to reduce injection and extraction losses.  Operationally develop multi-batch and multi-batch slip stacked operation  Design and install collimation system, both in the MI-8 line and in the MI ring  Modify injection kicker to allow multi-batch slip stacked operation  Characterize and perhaps make improvements to RF system, to support high intensity operation. Red = to be completed this shutdown

f AAC Review, May 10, Prebys 12 Major Accomplishments This Year  Linac  All 12 strategic spare 7835’s delivered! One must go back (bad ion pump)  Design of pulsed quad supplies ongoing  LEL LLRF studies well under way  Booster  Operationally supported slip stacking for pBar production, NuMI, and MiniBooNE Required operational cogging Logitudinal properties improved with the intervention of Rapid Response Team (RRT)  Worked in preparation for this shutdown (see next slides)  Finalized specifications and prototype design for new Booster corrector system.  Main Injector  Prepared for shutdown (see next slides)  Initiated routine full 2+5 operation Rate maximum until slip stacking begins after shutdown  Did studies related to full slip stacking Demonstrated accelerated 2+9 operation at low intensity

f AAC Review, May 10, Prebys 13 ORBMP/Injection ORBMP/Injection  New Booster Injection - ORBMP Girder & PS  A simplified 3 Bump injection scheme –Septum Magnet not required –Better Lattice Match –Alignment of Circulating beam with Injected beam  New ORBMP ps and magnets that can run at 15 Hz –Present system limited to 7.5 Hz due to heating Circulating Beam Present Injection Girder New Injection Girder Septa Injected Beam Foil Injected Beam Provided by Jim Lackey and Fernanda Garcia

f AAC Review, May 10, Prebys 14 Injection Modifications Current Scheme New Scheme Booster New 400 MeV Injection Layout ORBMP Girder ORBMP MAGNETS Provided by Jim Lackey and Fernanda Garcia

f AAC Review, May 10, Prebys 15 ORBUMP/400 MeV Project  Re-routed 400 MeV Line  Injection Girder

f AAC Review, May 10, Prebys 16 Booster Dump Relocation L13 Extraction Dump L3 Extraction to MI This extraction region is being relocated to the MI-8 transfer line

f AAC Review, May 10, Prebys 17 MI-8 Dump Line Relocated Septum Dump New Dump Line

f AAC Review, May 10, Prebys 18 MI-8 Collimator Note marble cladding

f AAC Review, May 10, Prebys 19 Main injector large aperture quads (7)

f AAC Review, May 10, Prebys 20 Shutdown Status  Linac  Ready to go  Booster  Down to “punch list”  Expect DC beam ~5/12  Commissioning week of 5/15  Ready to deliver beam (at some level) 5/22  Main Injector  All work to be completed ~5/15  Beam commissioning when back on Kautz Rd power (5/22)

f AAC Review, May 10, Prebys 21 Level 3 Breakdown with Budget

f AAC Review, May 10, Prebys 22 Booster Corrector Upgrade  Existing System:  Each of the 48 Subperiods contains H and V dipoles Normal and skew quads  Chromaticity correcting sextupoles at discrete locations  Not enough strength to control position and tune through cycle  Not enough slew rate for transition  Cannot cancel third order resonances  New system:  Dipoles strong enough for +- 1cm position control through whole acceleration cycle  Quads strong enough to select working point arbitrarily close to half or integer resonance through cycle  Sextupole and skew sextupole at every sub-period  Quads and sextupoles can go rail to rail in ~1 ms  Very complex project  Even without the rest of the plan, this would be a project  Organized as two AIP’s: long straights (2007) and short straights (2008)

f AAC Review, May 10, Prebys 23 Booster Corrector Design: 12 Pole Magnet  Prototype in progress  Coils and cores complete  Assembly beginning  Ready for test beginning of June

f AAC Review, May 10, Prebys 24 Main Injector Issues  Collimation System  The Main Injector can have significant beam loss for slip stacked beam.  A conceptual plan for collimation within the Main Injector ring has been developed.  We will review it in June, with the idea of implementing it during the 2007 shutdown.  RF Beam Loading  The existing RF system should have sufficient beam power to accelerate beam, but there might be stability issues and loading issues for slip stacking.  We have a detailed program of studies going on now to investigate these issues and suggest mitigation, if necessary.  For these reasons, although slip stacking studies will begin soon after this shutdown, we do not assume any increase beam from slip stacking until after the 2007 shutdown.

f AAC Review, May 10, Prebys 25 Proton Projections  Assume traditional operational priority:  Protons for pBar production Limited by ability to slip stack Limited by max cooling rate  Protons for NuMI Limited by max Booster batch size Limited by max MI cycle rate Limited by max MI proton capacity (will be) limited by ability to slip stack NuMI protons in MI  Protons for BNB (currently MiniBooNE) Determined by difference between Booster capacity and maximum MI loading. Currently limited by Booster losses, and will continue to be for some time. Ultimately limited by Booster rep. rate. Extremely sensitive to fluctuations in total Booster output

f AAC Review, May 10, Prebys 26 Evaluate Effect of Booster Improvements  Calculate effect of various improvements based on increased acceptance:  Use: Effective aperture reduction Booster Dump Relocation 06/06  “Design” projection: 50% of calculated benefit after 1 year  “Baseline” projection: 25% of calculated benefit after 1 year

f AAC Review, May 10, Prebys 27 Long Term Projections  These projections do not take in to account effects of collider turning off or possible improvements thereafter.

f AAC Review, May 10, Prebys 28 How have we done so far? FY06 Protons to MiniBooNE

f AAC Review, May 10, Prebys 29 Operational Summary for MiniBooNE  We continued to deliver protons to the MiniBooNE experiment as NuMI ramped up through the year.  This was still considered problematic as little as six months before the NuMI turn on  It reflects a significant achievement by both the Proton Source personnel and Operations.  MiniBooNE benefited from periodic NuMI downtimes.  There were no significant operational issues for the MiniBooNE experiment since the last Ops review.

f AAC Review, May 10, Prebys 30 FY06 Protons to NuMI

f AAC Review, May 10, Prebys 31 NuMI Operational Issues* March 2005: Project completion, beam-line commissioning Infant mortality of target water line, do “patch” on target system Clear horn ground fault (foot shook loose) Install system to collect tritiated water from target pile air cooling Integrated 1.4 x POT (equivalent to 1MW-month of continuous beam) *slide courtesy Jim Hylen

f AAC Review, May 10, Prebys 32 Total Protons Delivered

f AAC Review, May 10, Prebys 33 The Year in Review  Things which went well  Operationally continuing to run MiniBooNE with NuMI  Uptime better than anticipated  Less access needed for ECool than planned  Understanding the MI RF needs led to a drastically reduced scope of proposed MI RF work  Things which fell a bit short  Peak Booster intensity has not risen as fast as expected Projected peaks of 1E17 pph by this time. In fact peaks of ~9E16 pph have been observed.  Assorted problems with NuMI beam line

f AAC Review, May 10, Prebys 34 Summary  In the last year, the Proton Plan has gone from a concept to an official project, with monthly oversight and change control  We are successfully ramping up NuMI operation while continuing to deliver beam to MiniBooNE  As in Run II, an important part of the Plan is to make realistic proton delivery estimates, and we have done reasonably well.  A significant part of the plan has been completed this shutdown  The most important remaining parts are  Booster corrector system  Main Injector Collimation system