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An Alternative to Grahame Rees’ Isochronous FFAG Lattice for the Acceleration of Muons from 10 – 20 GeV Horst Schönauer, CERN Proposed FFAG-type Muon Accelerators:

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Presentation on theme: "An Alternative to Grahame Rees’ Isochronous FFAG Lattice for the Acceleration of Muons from 10 – 20 GeV Horst Schönauer, CERN Proposed FFAG-type Muon Accelerators:"— Presentation transcript:

1 An Alternative to Grahame Rees’ Isochronous FFAG Lattice for the Acceleration of Muons from 10 – 20 GeV Horst Schönauer, CERN Proposed FFAG-type Muon Accelerators: TypeProposalsFeaturesIsochronous Linear, scalingJapan, YM et alQ x,y = constFar from Linear, non- scaling CJ, AS, EK, SB et al Q x,y cross integers nearly Non-linear, non- scaling GHR 123 cell  ­ t   ; Q x,y cross integers exactly Non-linear, non- scaling Modif. GHR : HS 66 cell Q­ x,y,  ­t  const. (not yet) exactly

2 d d F F D D B B F F D D Homogenous Sector Homogenous Sector b Homogenous Rectangular O3 O2 O0 O1 GHR 123 Cell Lattice 8-20 GeV Length [m]B, Bmax [T] Cell19.35 O33 B0.74 O21 F1.21.9 O10.5 D1-2.3 O02 b0.32 Proposed 66 Cell Lattice 10 – 20 GeV Reference Orbit 15 GeV

3 Basic Parameters Energy Range10 – 20 GeV Circumference1257.52 m Number of Cells66 Inverted Bending b / B-1/8 Long Straight Sections6 m T101520GeV BB 33.6850.3567.02Tm B’±8.42±12.59±16.75T/m for kF, kD = ± 0.25 Design Principles: Extended Triplet Cell One high-field SC homogenous bending per half cell One low-field room temp. homogenous bending per half cell Approx. Constant Tune – no integer crossing Simple Elements (for tracking …): Rectang. F, D magnets Local Phase Slip accepted → Off-crest acceleration

4 At y = 0 (Central Energy, T = 15 GeV), B=0 and B’ = B’ 0 : As the Gradients B’ are given by k (=0.25 m -2 ), the maximum fields can be < 2T if |y max, min | < 0.1m Plot 10 Evaluate PBF,gPBF,y,YFmin,YFmax Consequences of k F,D  const.

5 10 – 15 – 10 GeV Orbits and Magnets Superimposed (AGILE Code Results) T [Gev]L Halfcell QxQyGamma-t 1019.344925.28216.31833.721 1519.356326.77315.55922.835 2019.348625.64715.55719.502

6 Plot Evaluate tps.Init15T.Incom.Dx70 - 0.37, - 0.36, - 0.34. e20 -> 0,B r,B r min,B r max, PlotEvaluatekFeff.Incom.Init15T,B r,B r min,B r maxPlotEvaluatetps0 - tps.Init15T.Incom,B r,B r min,B r max Error in Cell ToF for Rectangular inverse b Magnet with added quadratic Dx component [ps] BB BB BB kFkF Cell ToF for lin. Dx = -0.37, -0.36, -0.34 m Playing with Mathematica..

7 BeamOptics Representation

8 051015 sm 0 5 10 15 20 25  mDm OpticsPlot … Graphics …,SigmaEndSigma14.3333,0.,Sigma8.07818,0., Tunes0.3899930.243576DVectorEndDVector0.3043430., Path0.0164295RelativeTimeDispersion0.000849186 BeamOptics Representation

9

10 Open Questions : (After finalizing and optimizing the lattice) Consequences of local    t Classical acceleration at high  s feasible? RF acceptance Orbit control in isochronous lattice Dynamic aperture (Sextupole!)

11 T101520GeV BB 33.6850.3567.02Tm B’±8.42±12.59±16.75 T/m for kF, kD = ± 0.25 Length [m]Bmax [T] Cell19.35 O33 B0.74 O21 F1.21.9 O10.5 D1-2.3 O02 b0.321

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