300 Hz e + Generation for ILC MM with advanced conventional e + sources
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Transcript of 300 Hz e + Generation for ILC MM with advanced conventional e + sources
![Page 1: 300 Hz e + Generation for ILC MM with advanced conventional e + sources](https://reader030.fdocuments.in/reader030/viewer/2022032709/56813031550346895d95c6c5/html5/thumbnails/1.jpg)
300 Hz e+ Generation for ILC MMwith advanced conventional e+ sources
T. Omori (KEK) 17-Nov-2008, GDE meeting, Chicago
Many thanks to Chehab-san, Logachev-san,Urakawa-san, Kuriki-san, Takahashi-san, Kamitani-san, Louis-san
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e+ generation of ILC : quite tough even in Minimum Machine (MM)
Conventional e+ source:
300 Hz generation: make e+s in 40 m sec. 40 m sec make target easy
• only e+ source which we have experience in real accelerators• target survivability?
Generate e+s in 40 m sec
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• Minimum Machine: 1300 bunches
How?
• Divide into 13 mini-trains
• 300 Hz creation of mini-trains mini-train to mini-train = 3.3 m sec
• Each mini-train contains 100 bunches
• 1300 = 13 x 100
•Create 13 mini-trains : 40 m sec
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GLC/NLC (warm LC) Ne+/bunch = 0.7 x 1010
Nbunch/tarin = 3002-3 targets (conventional)150 Hz (6.7 m sec train to train)
ILC MM (cold LC) Ne+/bunch = 2 x 1010
Nbunch/tarin = 1300 = 13 x 100
x 3x 1/3
3.3 m sec(300 Hz) x (13-1) = 40 m sec
Comparison to Warm Machines
300 Hz generation: similar to warm machinesin it's time structurein view point of target thermal/shock issues
300 Hz generation: takes 40 m sec
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100 bunches/train x 300 HzTb_to_b = 6.15 n sec
DRTb_to_b = 6.15 n sec
1300 bunches/train x 5 HzTb_to_b = 300 n sec
e+ creation go to main linac
Time remaining for damping = 160 m sec
We create 1300 bunches in 40 m sec
Booster Linac5 GeV NC300 Hz
Drive Linac5 -10 GeV NC300 Hz
TargetCrystal/Amorphous Hybrid
orLiquid Lead
300 Hz Advanced Conventional e+ Source for MMCrystal/Amorphous Hybrid Target or Liquid Lead Target
Normal Conducting Drive and Booster Linacs in 300 Hz operation
1300 bunches13 mini-trains
![Page 6: 300 Hz e + Generation for ILC MM with advanced conventional e + sources](https://reader030.fdocuments.in/reader030/viewer/2022032709/56813031550346895d95c6c5/html5/thumbnails/6.jpg)
100 bunches/train x 300 HzTb_to_b = 6.15 n sec
DRTb_to_b = 6.15 n sec
1300 bunches/train x 5 HzTb_to_b = 300 n sec
e+ creation go to main linac
Time remaining for damping = 160 m sec
We create 1300 bunches in 40 m sec
Booster Linac5 GeV NC300 Hz
Drive Linac5 -10 GeV NC300 Hz
TargetCrystal/Amorphous Hybrid
orLiquid Lead
300 Hz Advanced Conventional e+ Source for MMCrystal/Amorphous Hybrid Target or Liquid Lead Target
Normal Conducting Drive and Booster Linacs in 300 Hz operation
1300 bunches13 mini-trains
![Page 7: 300 Hz e + Generation for ILC MM with advanced conventional e + sources](https://reader030.fdocuments.in/reader030/viewer/2022032709/56813031550346895d95c6c5/html5/thumbnails/7.jpg)
ILC MM beam before/in DR
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100 bunches/train x 300 HzTb_to_b = 6.15 n sec
DRTb_to_b = 6.15 n sec
1300 bunches/train x 5 HzTb_to_b = 300 n sec
e+ creation go to main linac
Time remaining for damping = 160 m sec
We create 1300 bunches in 40 m sec
Booster Linac5 GeV NC300 Hz
Drive Linac5 -10 GeV NC300 Hz
TargetCrystal/Amorphous Hybrid
orLiquid Lead
300 Hz Advanced Conventional e+ Source for MMCrystal/Amorphous Hybrid Target or Liquid Lead Target
Normal Conducting Drive and Booster Linacs in 300 Hz operation
1300 bunches13 mini-trains
![Page 9: 300 Hz e + Generation for ILC MM with advanced conventional e + sources](https://reader030.fdocuments.in/reader030/viewer/2022032709/56813031550346895d95c6c5/html5/thumbnails/9.jpg)
ILC MM beam after DR
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100 bunch beam is in operationLUCX Project in KEK
M. Fukuda
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100 bunch beam is in operation
M. Fukuda
Near future (2009) add a klystron 5 nc/bunch x 100 bunches
![Page 12: 300 Hz e + Generation for ILC MM with advanced conventional e + sources](https://reader030.fdocuments.in/reader030/viewer/2022032709/56813031550346895d95c6c5/html5/thumbnails/12.jpg)
GLC/NLC (warm LC) Ne+/bunch = 0.7 x 1010
Nbunch/tarin = 3002-3 targets (conventional)150 Hz (6.7 m sec train to train)
ILC MM (cold LC) Ne+/bunch = 2 x 1010
Nbunch/tarin = 1300 = 13 x 100
x 3x 1/3
Comparison to Warm Machines
300 Hz generation: similar to warm machinesin view point of target thermal/shock issues
Need 2-3 targets ?
1 target --> Hybrid or Liquid-Lead target
![Page 13: 300 Hz e + Generation for ILC MM with advanced conventional e + sources](https://reader030.fdocuments.in/reader030/viewer/2022032709/56813031550346895d95c6c5/html5/thumbnails/13.jpg)
100 bunches/train x 300 HzTb_to_b = 6.15 n sec
DRTb_to_b = 6.15 n sec
1300 bunches/train x 5 HzTb_to_b = 300 n sec
e+ creation go to main linac
Time remaining for damping = 160 m sec
We create 1300 bunches in 40 m sec
Booster Linac5 GeV NC300 Hz
Drive Linac5 -10 GeV NC300 Hz
TargetCrystal/Amorphous Hybrid
orLiquid Lead
300 Hz Advanced Conventional e+ Source for MMCrystal/Amorphous Hybrid Target or Liquid Lead Target
Normal Conducting Drive and Booster Linacs in 300 Hz operation
1300 bunches13 mini-trains
![Page 14: 300 Hz e + Generation for ILC MM with advanced conventional e + sources](https://reader030.fdocuments.in/reader030/viewer/2022032709/56813031550346895d95c6c5/html5/thumbnails/14.jpg)
100 bunches/train x 300 HzTb_to_b = 6.15 n sec
DRTb_to_b = 6.15 n sec
1300 bunches/train x 5 HzTb_to_b = 300 n sec
e+ creation go to main linac
Time remaining for damping = 160 m sec
We create 1300 bunches in 40 m sec
Booster Linac5 GeV NC300 Hz
Drive Linac5 -10 GeV NC300 Hz
TargetCrystal/Amorphous Hybrid
orLiquid Lead
300 Hz Advanced Conventional e+ Source for MMCrystal/Amorphous Hybrid Target or Liquid Lead Target
Normal Conducting Drive and Booster Linacs in 300 Hz operation
1300 bunches13 mini-trains
Chehab-san's talk
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1. Conventional e+ source is only e+ source which we have experiences in real accelerators.
3. But survivability is the issue.
5. Advanced Conventional e+ Source (ACS)
Summary
4. Ease the survivability issue by 300 Hz gen.make e+s in 40 m sec
Crystal/Amorphous Hybrid TargetLiquid Target
2. Independent.
6. ACS + 300 Hz Generation may be the most mature solution