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Emittance Growth Measurement of a 20 GeV beam with FACET I Magnet Config
Navid Vafaei-Najafabadi
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FACET I Spectrometer Layout with Li oven
Start of Ramp
Be Window QS 1 QS 2 Al
Window Elanex CMOS_ FAR
Relative Z (m) 0 1.55 5.91 9.91 20.31 20.37 21.19
Linac Z (m) 1994.85 1996.4 2000.76 2004.76 2015.16 2015.22 2016.04
QS
1 QS
2
ELAN
EX
Be
Plas
ma
nex4e16
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EvolutionofTwissParameters
! = # $#′ $′
FreePropagationinSpace:
&'&'( = 1 *
0 1&,&,(
FromTransferMatrixtoevolutionofTwissparameters
-.,/0,a anddistanceofBefoilfromdownramp areoptimizedtoproducethefit
Models
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ModelsPlasmaRamp:Continuousfocusingelementwithk= #$%&' = ()
* +,�
Be/Alfoil:MultipleScatteringAngleΔ"* QuadrupoleFocusing,
#$ = #& #& + (&Δ") �
+ = 1 + -)(
QS1
QS2
*Δ"=8.3µrad for75µmBewindowand134mrad for5mmAl
. = 1/0�
-$ =#&-&
#& #& + (&Δ") �
($ =#&(&
#& #& + (&Δ") �
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Injected Beam Emittance at ~23 GeV
Double Gaussian Fit Optimization Results
• Energy slices equivalent except for energy • Elements affecting beam size measurement
• Plasma down-ramp • 75 μm Be window • Two Quadrupole magnets (QS1,QS2) • 5 mm Al window
• 𝜖𝑛, 𝜎𝑟, α and optimized to produce the fit
𝜖𝑛=5mm-mrad𝜎𝑟=1 𝜇m
𝜎𝑟𝑓𝑖𝑡=97.3 𝜇m
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Drive Beam Emittance at ~15 GeV
• Energy slices equivalent except for energy • Elements affecting beam size measurement
• Plasma down-ramp • 75 μm Be window • Two Quadrupole magnets (QS1,QS2) • 5 mm Al window
• 𝜖𝑛, 𝜎𝑟, α and optimized to produce the fit
𝜖𝑛=584 mm-mrad𝜎𝑟=56 𝜇m
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Measuring Emittance of a Beam Accelerated to 20 GeV
Configuration • Magnet/foil locations: Same as FACET I • Quad strengths: 258.03,-172.06.
• Calculated for imaging at 20.35 GeV, using one of the DAQ functions.*
• Energy for trailing electron beam: 20 GeV ± 1 GeV • Butterfly Profile is plotted for different normalized
emittance values and for different initial beam sizes
*Image plane at ELANEX (z=2015.22), object plane at 12 cm upstream of the exit of the 1.5 m lithium oven (z=1997.85) — same config as last 1.5 m positron run
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Emittance of 20 GeV Beam From the End of the Matching Section
In a 1 GeV window, the different cases within a factor of two can be distinguished relatively easily
Butterfly for variation in ϵn, with 𝜎r=3𝜇m
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Emittance of 20 GeV Beam With FACET I Lithium Ramp
Butterfly for variation in ϵn, with 𝜎r=1𝜇m
Peak density is assumed to be 5x1016 cm-3
Ramp profile is the same as long plasma Li profile
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Butterfly for variation in 𝜎r, with ϵn=10 mm-mrad
However, the larger the initial beam size is, the distinction becomes more difficult to make
Highly Unmatched Beams in Plasma
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Butterfly for variation in ϵn, with 𝜎r=4𝜇m inside plasma
Butterfly Feature for 4µm Initial Size
Beams of Various emittance below 21 GeV are very difficult to distinguish
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Conclusions•An optimization routine is used to estimate the parameters of the beam consistent with the beam size observed in a high resolution spectrometer
•Emittance of injected beam from E217 is estimated at 5 mm-mrad, much smaller than the drive beam
•The imaging spectrometer can be used to measure the emittance growth of the witness beam in the two bunch experiment in FACET II to accuracy of tens of percent
•The more mismatched the beam is, the harder it is to measure emittance growth
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The End
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Checking Optimization Variation
Variation of 𝛘2 attains a minimum for all three parametersχ 2 =
(σ opt −σ obs )2
σ obs2∑