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![Page 1: Overview of 300 Hz Conventional e + Source for ILC Truly Conventional Collaboration ANL, IHEP, Hiroshima U, U of Tokyo, KEK, DESY, U of Hamburg NIM A672.](https://reader036.fdocuments.us/reader036/viewer/2022062713/56649ce15503460f949aaffd/html5/thumbnails/1.jpg)
Overview of 300 Hz Conventional e+ Source
for ILC
Truly Conventional CollaborationANL, IHEP, Hiroshima U, U of Tokyo, KEK, DESY, U of Hamburg
NIM A672 (2012) 52—56
T. Omori (KEK)7-Oct-2014
LCWS 2014, Hyatt Regency, Belgrade
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ILC: International Linear Collider
e+ lineace- lineac DRsDR
Ecm = 500 - 1000 GeV~ 50 kme- 源 e+ 源
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e- sourceWe extract electron from a material.
e- source and e+ source
e+ sourceThere are no positrons in materials.
We have to "create" positrons.
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X 18X 65ILC requires HUGE number of positrons.
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Target Issues
• Undulator Scheme (base line) • In order to create e+s, it uses e- beam in the main linac. • It creates 2600 bunches of e+s in 1 m sec. • Heat load is a serious problem. • It requires the challenging rotation target (100 m/s). (spreads 2600 bunches in 100 mm length) • Difficulty in cooling and vacuum.
• 300 Hz Truly Conventional • It creates 2600 bunches of e+s in 63 m sec. (stretching) • We can employ much slower speed target: 3-5 m/s.
Heat, Stress, and Vacuum
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300 Hz scheme
e+ generation in 63 m sec (cf. undulator : in 1 m sec)
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• Total Number of bunches: 2640 How?
• Divide into 20 triplets (1 Triplet = 3 Mini-Trains)
• 300 Hz creation of triplets triplet to triplet time space = 3.3 m sec
• Each triplet contains 132 bunches
• 2640 = 20 x 132
• Create 20 triplets : 63 m sec
Stretching in time
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20 triplets, rep. = 300 Hz • triplet = 3 mini-trains with gaps • 44 bunches/mini-train, Tb_to_b = 6.15 n sec
DRTb_to_b = 6.15 n sec (3.07)
2640 bunches/train, rep. = 5 Hz • Tb_to_b = 369 n sec
e+ creation go to main linac
Time remaining for damping = 137 m secWe create 2640 bunches in 63 m sec
Booster Linac5 GeV NC300 Hz
Drive LinacSeveral GeV NC300 Hz
TargetAmorphous Tungsten
Pendulum or Slow Rotation
Conventional e+ Source for ILCNormal Conducting Drive and Booster Linacs in 300 Hz operation
2640 bunches60 mini-trains
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20 triplets, rep. = 300 Hz • triplet = 3 mini-trains with gaps • 44 bunches/mini-train, Tb_to_b = 6.15 n sec
DR
2640 bunches/train, rep. = 5 Hz • Tb_to_b = 369 n sec
e+ creation go to main linac
Time remaining for damping = 137 m secWe create 2640 bunches in 63 m sec
Booster Linac5 GeV NC300 Hz
Drive LinacSeveral GeV NC300 Hz
TargetAmorphous Tungsten
Pendulum or Slow Rotation 2640 bunches60 mini-trains
Stretching
Conventional e+ Source for ILCNormal Conducting Drive and Booster Linacs in 300 Hz operation
Tb_to_b = 6.15 n sec (3.07)
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Beam before DR
Injection: usual kicker ( ~ 1 us) no stacking is necessary
<-- the 100 ns gap is required to cure an e- cloud problem in e+ DR.
=132 bunches
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20 triplets, rep. = 300 Hz • triplet = 3 mini-trains with gaps • 44 bunches/mini-train, Tb_to_b = 6.15 n sec
DR
2640 bunches/train, rep. = 5 Hz • Tb_to_b = 369 n sec
e+ creation go to main linac
Time remaining for damping = 137 m secWe create 2640 bunches in 63 m sec
Booster Linac5 GeV NC300 Hz
Drive LinacSeveral GeV NC300 Hz
TargetAmorphous Tungsten
Pendulum or Slow Rotation 2640 bunches60 mini-trains
Conventional e+ Source for ILCNormal Conducting Drive and Booster Linacs in 300 Hz operation
Tb_to_b = 6.15 n sec (3.07)
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Beam after DR
Extraction: fast kicker ( 3 ns kicker: Naito kicker) the same as the baseline
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Target and Drive_BeamOptimization
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In the case of 300Hz scheme
spacing between triplets=3.3ms
132bunches in 992ns
good for a FCwe can use existing FC
technology
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Assumptions
a triplet: 132 bunches 992ns
a train: 20 triplet = 2640 bunches 63ms
3.3ms
132 bunches make a shock wave heat same position on the target
each triplet hitsdifferent position on the target
drive electrons2×1010/bunch
pendulum or slow rotation target
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35J/g
500k
100k
Parameter Plots for 300 Hz schemePEDD J/g
colored band accepted e+/e-
dT max by a triplet
1 2 3 4 5
e- directly on to Tungsten
s=4.0mmNe-(drive) = 2x1010 /bunch
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35J/g
500k
100k
Parameter Plots for 300 Hz schemePEDD J/g
colored band accepted e+/e-
there seems to be solutions
dT max by a triplet
1 2 3 4 5
e- directly on to Tungsten
s=4.0mmNe-(drive) = 2x1010 /bunch
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Dependence on Drive beam size
s of the Drive e- Beam (mm)
35J/g
e+/e- =1.5
, Ne-/bunch = 2x1010
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Target Heat Simulation (Wanming)
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assumption: 5 m/s
Target Heat Simulation (Wanming)
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20 triplets, rep. = 300 Hz • triplet = 3 mini-trains with gaps • 44 bunches/mini-train, Tb_to_b = 6.15 n sec
DRTb_to_b = 6.15 n sec
2640 bunches/train, rep. = 5 Hz • Tb_to_b = 369 n sec
e+ creation go to main linac
Time remaining for damping = 137 m sec
Booster Linac5 GeV NC300 Hz
Drive LinacSeveral GeV NC300 Hz
TargetAmorphous Tungsten
Pendulum or Slow Rotation 2640 bunches60 mini-trains
Conventional e+ Source for ILCNormal Conducting Drive and Booster Linacs in 300 Hz operation
Truly Conventional * We assume single solid target. * NO Liquid Target or NO Hybrid Target are assumed
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R/D items
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R&D Issues of the Conventional Source
• “conventional” but still needs some more R&D• High current, high rep rate driver linac• Moving target• Flux concentrator• Capture and Booster linac• Overall simulation• How to go with the undulator source
(compatibility)2013/8/30 ILC monthly, Yokoya 23
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Moving Target• ~ 3-5m/sec required (1/20 of undulator scheme)• 2 possible schemes being developed at Hiroshima/KEK
2013/8/30 ILC monthly, Yokoya 24
bellows seal
vacuum
airferromagneticfluid seal
air vacuum
5Hz pendulum with bellows seal rotating target with ferromagnetic seal
main issue: vacuum
common issue: stress by heat
main issues: life of bellows, mechanismFirst step prototype fabricated
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Flux Concentrator
• Almost existing technology– pulse length ~1msec (cf. ~1msec in undulator
scheme)• SuperKEKB
– aperture 7 mm (diameter) • Beam aperture should be a bit larger
– ~7mm ~12mm or more
2013/8/30 ILC monthly, Yokoya 25
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Linacs• Driver linac (~6GeV)
– high current– high rep rate (300Hz)
• Booster linac (~5GeV)– high rep rate– accurate loading
compensation (due to uneven bunch structure)
2013/8/30 ILC monthly, Yokoya 26
a triplet: 132 bunches 992ns
a train: 20 triplet = 2640 bunches 63ms
3.3ms
2×1010/bunch
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200MW, 3ms300Hz Power Supply
Low Level RFPhase Shifterand Amp.
3dB High PowerRF Combiner 50W High Power
Terminator
80MW Klystron
3m long constant gradient travelling wave structure
precise control ofthe phase shifters needed
500 1000 1500 2000 2500ns
10
20
30
40
50
60
MV
3x1010 positron/bunch300Hz triplet beamLess than +/- 0.7%
Loading Compensation Scheme Urakawa
Test at ATF linac being planned2013/8/30 ILC monthly, Yokoya 27
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Overall Simulation• DR aperture
– DE < +-37.5MeV– Dz < +-34mm– Ax+Ay < 70mm
• Must include– target simulation– loading
compensation• Is S-band linac
acceptable?
25MeV
Time (ns)
Pz(M
eV)
Longitudinal Phase Space
2013/8/30 ILC monthly, Yokoya 28
+- 3.46 cm
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Discussion@LCWS2013(Tokyo)
If we start with "Conventional", we need to keep smooth path to "Undulator".
footprint compatibility (no change of the tunnel)
• "300Hz conventional source" should fit the space for "undulator source"
undulator e+ source
Undulator-Conventional Compatibility
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Summary
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Summary• Conventional e+ source can be a solution for ILC, with 300Hz scheme and optimized beam&target parameters.
• to go forward -> We need R/Ds– High current, high rep rate driver linac– Moving target– Flux concentrator– Booster linac– Overall simulation– Target R/D