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Accelerator R&D for Future Neutrino Projects

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Presentation on theme: "Accelerator R&D for Future Neutrino Projects"— Presentation transcript:

1 Accelerator R&D for Future Neutrino Projects
In this talk, “future” = post T2K Three main candidates (with variants)………. Focus on Neutrino Factory and Beta Beam International context Main challenges R&D projects underway Conclusions

2 Physics

3 International context
Aims driven by CERN SG: “…..studies of the scientific case for future neutrino facilities and the R&D into associated technologies are required to be in a position to define the optimal neutrino programme based on the information available in around 2012; Council will play an active role in promoting a coordinated European participation in a global neutrino programme” Within Europe, being done through EUROnu: - FP7 Design Study M€ total budget study three options for future facility - includes detectors and physics - primary aim: “cost” and performance for SG - runs 1st September 08 to 31st August part of CERN strategy see

4 IDS-NF International activities International Design Study for the Neutrino Factory Started 2008, building on ISS Aims: IDR ~2010; RDR ~2012 Design of accelerator and detector(s) Physics performance Cost and schedule “Risk” EUROnu – most of EU contribution

5 Overall conceptual design
Neutrino Factory Challenges pretty much everywhere Overall conceptual design FETS Targets EMMA MICE RF SPL Project X Targets EMMA

6 Target Main target issues: high energy density, 300J/cm3
~0.75MW deposition in target Problems: thermal shock temperature rise radiation damage radiation protection, remote handling, disposal..... 3 options being studied: liquid mercury jet solid bars particle jet None yet proven at engineering level

7 Study-2 capture solenoid
Liquid Mercury Study-2 capture solenoid Concept: - DC jet, 1cm Ø, 20m/s - 30kg Hg/s - carries heat away - “shock” studied by MERIT MERIT: - PS beam - correct energy density - 20m/s jet T pulsed magnet 1 2 3 4 Syringe Pump Secondary Containment Jet Chamber Proton Beam Solenoid Data-taking – November 2007 Analysis – on-going, but advanced

8 Liquid Mercury Images of Jet Flow at Viewport 3, B = 10 T, N = 10 Tp, 2 ms/frame,  Ldisruption = 17 cm t = 6, , , , , , , ms Disruption: - starts after proton pulse - finished before next

9 Liquid Mercury 24 GeV 14 GeV

10 Liquid Mercury Concept is proven, though analysis on-going
Remaining issues mainly related to engineering: impact of droplets and filaments impact of mercury jet construction of DC jet erosion and contamination of mercury design of mercury loop collection of mercury radio-protection

11 Study-2 capture solenoid
“Solids” Concept: ~150 solid W bars, 2x20cm, changed between pulses First main issue – thermal shock: - tested with current >26 year lifetime now use beams Study-2 capture solenoid Radiation: ~same as ISIS Second main issue – changing the targets!

12 “Solids” Alternative concept:
particle jet: ~250µm W power, few m/s jet entirely novel, many issues to study

13 Solenoids

14 EMMA Model of muon FFAG accelerator(s) in NF – v. imp. R&D project
Proof-of-principle non-scaling FFAG – variety of applications: - proton & light ion cancer therapy - ADSR muon production for slow muons - etc Will study: ns dynamics large acceptance, 30πm mrad - bucketless acceleration - fast resonance crossing - very large momentum compaction - etc Comparison with tracking codes Parameters: electrons, 10-20MeV cells, doublet lattice, 1.3GHZ RF - cell length 40cm → 16.5m circumference

15 EMMA Being built at Daresbury Use ALICE as injector

16 EMMA

17 EMMA Diagnostics beamline Injection line EMMA ring

18 EMMA First beam ~December

19

20 Beta Beam Baseline Beta Beam 18Ne and 6He studied in EURISOL FP6 DS
Updated Beta Beam: 8Li and 8B – higher Q isotopes Baseline ions ISOL method Ne 2x1013/s <8x1011/s 6He 2x1013/s >1x1013/s direct production being studied 8Li /s 8B >1013/s ion production ring

21 Ion production & collection
Beta Beam Overall conceptual design Ion production & collection Bunching Decay ring

22 Ion production & collection
Beta Beam Overall conceptual design Ion production & collection Bunching Decay ring

23 From C. Rubbia, et al. in NIM A 568 (2006) 475–487
Ion Production Ion production ring 8Li /s 8B >1013/s 7Li(d,p)8Li 6Li(3He,n)8B 7Li 6Li 20-30 MeV From C. Rubbia, et al. in NIM A 568 (2006) 475–487

24 Being studied in EUROnu
Ion Production Being studied in EUROnu

25 Conclusions Number of post-T2K projects world-wide
Choice of “best” currently uncertain due to: physics performance cost EUROnu studying this in European context IDS-NF looking at Neutrino Factory Targeting SG 2012 deadline Significant progress being made

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