Scaling VFFAG eRHIC Design Progress Report June 24, 2013Stephen Brooks, eRHIC FFAG meeting1.

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Presentation transcript:

Scaling VFFAG eRHIC Design Progress Report June 24, 2013Stephen Brooks, eRHIC FFAG meeting1

June 24, 2013Stephen Brooks, eRHIC FFAG meeting2 I. Beam Distribution Model

Input from Beam-Beam Simulation To check dynamic aperture, want a “worst case” beam with tails Received a distribution from Yue Hao – Electrons immediately after interaction at 10GeV Loss required <1e-6 so long tails are important – Define model distribution not discrete particles Fit model to Yue’s beam distribution June 24, 2013Stephen Brooks, eRHIC FFAG meeting3

y-y’ with Linear Histograms June 24, 2013Stephen Brooks, eRHIC FFAG meeting4

y-y’ with Log Histograms June 24, 2013Stephen Brooks, eRHIC FFAG meeting5

Distribution Model y’ (and x’) tails on log plots look like e^-x Turns out in a 4D (x,x’,y,y’) distribution that’s not a very natural tail to have Cumulative F(Z) = (1-e^-Z)^4 mostly works – Z is normalised amplitude (expressed in sigmas) – Needed to scale to 0.85Z to get good fit in tails Idea is phase-independent distribution that is “at least as bad” as real one in all projections June 24, 2013Stephen Brooks, eRHIC FFAG meeting6

Distribution Model Comparison June 24, 2013Stephen Brooks, eRHIC FFAG meeting7

Comparison Without 0.85 Scaling June 24, 2013Stephen Brooks, eRHIC FFAG meeting8

Beam Size in Real Phase Space sigma_x = 13.6um, sigma_x’ = 72.9mrad – At IR! So beta_RMS = 18.6cm em_geom_RMS = 0.99 nm.rad (at 10GeV) – em_norm_RMS = 19.4 um.rad Scaling to beta = 5m and 1.2GeV gives – sigma_x = 203um – Tails were approaching 10 sigma So [dynamic] aperture needs to be +/- 2mm: large! June 24, 2013Stephen Brooks, eRHIC FFAG meeting9

x-y Example VFFAG June 24, 2013Stephen Brooks, eRHIC FFAG meeting10

Zoom 20x to see Beam at IR June 24, 2013Stephen Brooks, eRHIC FFAG meeting11

June 24, 2013Stephen Brooks, eRHIC FFAG meeting12 II. Dynamic Aperture k Scaling

Scaling VFFAG Design from April k=100m^-1 (reminder: B_y = B_0 e^ky) – 21.2mm orbit offset, B_0=0.0529T, B 10GeV =0.441T Used triplet “2 nd stability region” lattice Tracking indicated dynamic aperture too small F=1.23m, D=1.3m (2cm fringe), O=2.507m – FDFO lattice cell = 6.267m – 60% packing factor – Circumference factor = June 24, 2013Stephen Brooks, eRHIC FFAG meeting13

2 nd Stability Region Optics June 24, 2013Stephen Brooks, eRHIC FFAG meeting14

April 2013Stephen Brooks, PASI 2013 & BNL seminar15 2 nd stability region parameter space NB: old values, diagram indicative only!

How to Scale k? Orbit spacing scales with 1/k Magnet/drift lengths with 1/sqrt(k) – 2k with same magnet L gives focal L/2 – But 2k with magnet L/sqrt(2) gives focal L/sqrt(2) Beta is focal length so also 1/sqrt(k) Fringe field length with 1/k – Because magnet height scales with 1/k Dipole fields remain the same June 24, 2013Stephen Brooks, eRHIC FFAG meeting16

Dynamic Aperture Simulation Most difficult turn is 1.2GeV: largest beam – Higher order poles smaller for smaller beams Disrupted beam is harder than original Do 2 turns of disrupted beam at 1.2GeV as proxy for whole 1.2->10->1.2 cycle – C_eRHIC = m, 2 turns ~ 7.7km – particles for now GeV orbit excursion = 2.12/k June 24, 2013Stephen Brooks, eRHIC FFAG meeting17

Transmission as k is Decreased June 24, 2013Stephen Brooks, eRHIC FFAG meeting18 k=100m^-1 k=50 k=30

Better but Not Good Enough! June 24, 2013Stephen Brooks, eRHIC FFAG meeting19

June 24, 2013Stephen Brooks, eRHIC FFAG meeting20 III. Stability Diagrams

Necktie FDF Triplet Stability Plot June 24, 2013Stephen Brooks, eRHIC FFAG meeting21

Lattice Variables & Constraints FDFO triplet has 3 lengths and 2 magnet strengths (the B_0 for F and D; k is fixed) Packing factor 60% fixes Length_O Tunnel bending radius m fixes overall field magnitude – The previous “necktie” plots didn’t enforce this! Leaves 5-2=3 free parameters: L_F, L_D and F/D strength ratio June 24, 2013Stephen Brooks, eRHIC FFAG meeting22

June 24, 2013Stephen Brooks, eRHIC FFAG meeting23 L_F vs. L_D plot from 0 to 2m Curvature constant, 60% packing, strength F/D=1 FDF 1 st stability region Max beta ~ 5m, 6-7GeV FDF 2 nd stability region Max beta ~ 20-50m, 10-11GeV DFD 1 st stability region Similar to FDF 1 st

June 24, 2013Stephen Brooks, eRHIC FFAG meeting24 Zoom out: L_F vs. L_D plot from 0 to 5m (1,1) beta~5m, 6-7GeV (2,1) beta~20-50m, 10-11GeV (3,1) beta~10000m! 16GeV DFD (2,2) beta<5m?? 11GeV DFD (2,1) Beta~80-200m 13-14GeV

June 24, 2013Stephen Brooks, eRHIC FFAG meeting25 IV. eRHIC Energy Limit Formula

“Maximum GeV” for a Lattice Reference case: 60% packing factor, 0.43*2/3 = T, Eref=20GeV Synchrotron power P proportional to E^2B^2 = E^2 So Emax^2 = Eref^2 (Emax^4/E^2) = Eref^2 Emax = sqrt(E Eref Brmsref/Brms) – = Eref sqrt(E/Brms)/sqrt(Eref/Brmsref) June 24, 2013Stephen Brooks, eRHIC FFAG meeting26

Maximum GeV Examples The non-FFAG eRHIC with separate beamlines (no reverse bend) has Emax=20GeV and C=1 Having a circumference factor multiplies up the required fields (Brms) by C for a given energy, so E/Brms is divided by C Square root means Emax is divided by sqrt(C) Existing C=3.241 case gets to 11.1GeV June 24, 2013Stephen Brooks, eRHIC FFAG meeting27

June 24, 2013Stephen Brooks, eRHIC FFAG meeting28 V. Future Work

Where to go next Try to find scaling VFFAG at lower energy (~5GeV) but with enough dynamic aperture – Perhaps alignment error studies too – Acts as a back-stop A few places remain to optimise the scaling VFFAG but since the tunes do not matter a non-scaling machine has more freedom June 24, 2013Stephen Brooks, eRHIC FFAG meeting29

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