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Accelerator WG 5 summary Interaction region, ATF2 and MDIDeepa Angal-Kalinin, Lau Gatignon,
Andrei Seryi, Rogelio Tomas
IWLC201022 -10 - 2010
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WG5 , IWLC2010 2
Interrelation of technical challenges for the push-pull
system
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WG5 , IWLC2010 3
Illustrations of interrelations• Differences of approaches for detector
assembly lead to differences in segmentation and rigidity, resulting in different assumptions on requirements for a detector motion system• The motion system and IR hall design need to
mitigate the challenges and maximise compatibility of detectors
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WG5 , IWLC2010 4
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WG5 , IWLC2010 5
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WG5 , IWLC2010 6
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WG5 , IWLC2010 7
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SiD:
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WG5 , IWLC2010 10
ILD
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WG5 , IWLC2010 12
H.Yamaoka, BELLE vibration measurements:
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WG5 , IWLC2010 13
Illustrations of interrelations
CLIC Final Doublet requires fraction of nm stability. A solution may be to lengthen L*, and/or placing FD on a stable floor. This may affect detector size, shielding, IR hall configuration, etc
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WG5 , IWLC2010 14
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CLIC QD) Pre-alignment – H.Mainaud
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Expected latency at CLIC: 37 nsec
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Test of a digital system (for ILC) at ATF2:
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WG5 , IWLC2010 24
pre-alignment H&V [m]
Relative Success rate %
Absolute Success rate %
lattice comments
10 55 80 L* = 3.5 m nominal
10 58 84 L* = 3.5 m Higher energy bandwidth
10 65 87 L* = 3.5 m Tuning + horizontal knobs
Progress on CLIC BDS static tuning: 87% probability of reaching 80% luminosity.Need to learn from ATF2
Barbara Dalena
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Glen probably found the solution to bettertune the CLIC FFS via the “pushed ATF2”
ATF2 is an example of true ILC-CLIC collaborationwhere both projects benefit from each other.
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Quad shunting can get to the micron resolution in ATF2!
Eduardo Marin
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In 2010 spring run, we performed 1st trial of the ATF2 continuous operation with 4cm bx and 1mm by optics.
In the continuous operation, we achieved the 0.87 of the modulation depth at 8.0 deg. Mode.
The evaluated vertical beam size is 310 +/- 30 (stat.) +0-/40 (syst.) nm.( The design beam size is 114nm )
Okugi san
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Using CLIC codes
Okugi san
ATF2 is getting ready for the Winter 2010 run
IP-BPM
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WG5 , IWLC2010 29
e-BDS
Sacrificial collimators + chicane to detect off energy beams
Fast abort line
Undulator
Dogleg
Skew correction & emittance measurement
Chicane to detect LW photons
DC Tuning line
Polarimetry chicane
Betatron collimation
Energy collimation
Final Focus
IP
SB2009 e- BDS
Changes on e- side due to central integration : dogleg design & tolerances
Separated polarimeter chicane from RDR combined functionalities.
D. Angal-Kalinin
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ILC : Compensation of beam size growth and vertical orbit at the IP
R. Versteegen
-1
0
1
2
3
4
-12 -10 -8 -6 -4 -2 0
ILD, l*=4.5 m
Bz (T)
z (m)
SF1 QF1 DIPSD0 QD0
-2
-1
0
1
2
3
4
5
6
-12 -10 -8 -6 -4 -2 0
SolenoidSolenoid+anti-solenoidanti-solenoid
SiD, l*=3.5 m
Bz (T)
z (m)
SF1 QF1 DIPSD0 QD0
-0.03
-0.02
-0.01
0
0.01
0.02
0.03
0.04
0.05
0.06
-12 -10 -8 -6 -4 -2 0
ILD Solenoid
Anti-DID
ILD Solenoid+anti-DID
z (m)
SF1 QF1 DIPSD0 QD0
Bx (T)
SF1 QF1 DIPSD0 QD0
-0.03
-0.02
-0.01
0
0.01
0.02
0.03
0.04
0.05
0.06
-12 -10 -8 -6 -4 -2 0
SiD Solenoid
Anti-DID
SiD Solenoid+anti-DID
Bx (T)
z (m)
-1
0
1
2
3
4
-12 -10 -8 -6 -4 -2 0
ILD, l*=4.5 m
Bz (T)
z (m)
SF1 QF1 DIPSD0 QD0
-2
-1
0
1
2
3
4
5
6
-12 -10 -8 -6 -4 -2 0
SolenoidSolenoid+anti-solenoidanti-solenoid
SiD, l*=3.5 m
Bz (T)
z (m)
SF1 QF1 DIPSD0 QD0
-0.03
-0.02
-0.01
0
0.01
0.02
0.03
0.04
0.05
0.06
-12 -10 -8 -6 -4 -2 0
ILD Solenoid
Anti-DID
ILD Solenoid+anti-DID
z (m)
SF1 QF1 DIPSD0 QD0
Bx (T)
SF1 QF1 DIPSD0 QD0
-0.03
-0.02
-0.01
0
0.01
0.02
0.03
0.04
0.05
0.06
-12 -10 -8 -6 -4 -2 0
SiD Solenoid
Anti-DID
SiD Solenoid+anti-DID
Bx (T)
z (m)
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WG5 , IWLC2010 3320 October 2010 B. Dalena, IWLC 2010 33
Luminosity Loss due to incoherent synchrotron radiation
• Luminosity calculation by GUINEA-PIG
• CLIC half horizontal crossing angle 10 mrad• *
y (BcL)5/2 P.Tenembaum et al., PRST-AB 6, 061001 (2003)
• CLIC-BDS budget: 20% luminosity loss
Field Map Bz [T] Lumi loss [%]
CLIC_SiD 5 ~14.0
CLIC_SiD + Antisolenoid 5 ~10.0
CLIC_ILD 4 ~10.0
CLIC_ILD + Antisolenoid 4 ~10.0
ILC_ILD at 3 TeV + AntiDiD 4 ~25.0
ILC_4th at 3TeV concept 3.5 ~20.0
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WG5 , IWLC2010 36IWLC, 20 October 2010Edda Gschwendtner, CERN
36 36
0.9kW4kW
6.9kW
131kW
1kW
3.1kW
0.7 kW
1.9kWOpposite charge particles
Same charge particles
170kWAbsorber Baseline Design
0kW
Magnet protection:Carbon absorbers: Vertical apertures between 13cm and 100cm
Aperture dimensions tuned such that losses in magnets < 100W/m
Intermediate dump (CNGS style):carbon based absorber, water cooled aluminum plates, iron jacket3.15m x 1.7m x 6m aperture: X=18cm, Y=86cm
Non-trivial, but solutions for absorbers exist (see dumps in neutrino experiments: 4MW)
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WG5 , IWLC2010 39
Conclusion
• A lot of progress and strong CLIC-ILC collaboration in the area of MDI, BDS and ATF2– Further opportunities for joint work arising
• A lot of attention and recent progress in push-pull system design – Vibration studies and measurements– Preparing quantitative process for selection of
detector motion system• ATF2 extremely valuable, a lot of lessons,
real-life BDS experience, essential for low-beta for ILC & CLIC