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Stephen Brooks

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Title: Stephen Brooks


1
Neutrino Factory Muon Beam Production Studies
m
2
Confusing Acronyms
  • I am a DPhil student1 with Oxford Particle
    Physics and part of the JAI
  • I actually work at RAL (a site of CCLRC) in the
    ASTeC Intense Beams Group
  • Nationally, my research contributes to the UKNF
    project2 (funded by PPARC)
  • Specifically, WP1 Conceptual Design3
  • Internationally, this year it contributes to the
    NF Scoping Study (ISS)4
  • Specifically, the accelerator study group5
  • 1 Supervisor John Cobb, Oxford PP
  • 2 Project leader Ken Long, Imperial College
  • 3 WP manager Chris Prior, ASTeC IB Group, RAL
  • 4 Project leader Peter Dornan, Imperial
    College
  • 5 Group coordinator Mike Zisman, LBNL

3
Thesis Title
  • Muon Capture and Cooling Schemes for the
    Neutrino Factory
  • So far Ive concentrated on muon capture

4
Problem
  • The neutrino factory is (at least) a tertiary
    beam facility
  • p on target ? p ? m ? n,ne,m
  • Efficient capture of the pions as they decay to
    muons is a critical step
  • Resultant beam must obey constraints
    longitudinally (DE, bunch length) and
    transversely (emittance lt acceptance)

5
Research Activity (so far)
  • Simulations of pion production in target
  • Optimal proton energy (or energies)
  • Target material choice
  • Tracking of particles up to cooling
  • Finding the most efficient capture system
  • Comparison, optimisation of schemes
  • Also defining what we want from the target
  • Cooling modelling preparation

6
UKNF Muon Front End
RF phase rotation (reduces energy spread)
Solenoidal decay channel
Target difficult engineering challenge in
itself, covered by UKNF WP2
7
Target Simulations
Pions
  • Particle production setup
  • Used MARS15 code
  • Scanned possible proton energies
  • Four materials studied so far
  • Ta (solid), Hg (liquid jet), C (granular?), Cu
  • ? NF International Scoping Study (ISS) also
    GEANT4 benchmarking by K. Walaron

Protons
1cm
Cylinder of material
20cm for Ta 66cm for C
8
Target Results
9
Particle Tracking Features
  • Starts with MARS15 output
  • Cannot use paraxial approximation, so 3D
  • Nonlinear dynamics e.g. spherical aberration
  • (Somewhat) realistic geometry, obstructions
  • Includes p ? m and muon, kaon decays
  • Supports lattice optimisation ranges
  • Novel multi-parameter approach
  • Genetic algorithm

10
Simulation
  • Challenge high emittance of target pions
  • Here they come from a 20cm tantalum rod

Evolution of pions from 2.2GeV proton beam on
tantalum rod target
11
Optimisation Network
  • Internet-based computer grid being used
  • 20 million simulations run, 100s of users
  • Several lattice-ranges submitted

12
Muon Cooling
  • G.H. Rees at RAL conceptually designed a cooling
    dogbone lattice
  • Future use for tracking/optimising code
  • Will compare with John Cobb using ICOOL
  • Must include energy absorbers (material)
  • At Oxford, the ELMS study has computed the real
    muon cross-sections needed
  • Ive studied how to integrate this with my code
  • Wade Allison, Simon Holmes speciality (next!)

13
(No Transcript)
14
Alternative Design
Chicane phase rotation decreases the bunch length
Over 80 caught in linac bucket
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