initiating the crab system r&d
DESCRIPTION
Initiating the Crab System R&D. Graeme Burt Lancaster University Philippe Goudket Daresbury Laboratory. Crab Cavity Team. Graeme Burt RA Lancaster Uni. Amos Dexter SL Lancaster Uni. Philippe Goudket RF Eng. Daresbury Alexander Kalinin RF Eng. Daresbury - PowerPoint PPT PresentationTRANSCRIPT
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Initiating the Crab System R&D
Graeme BurtLancaster University
Philippe Goudket
Daresbury Laboratory
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Crab Cavity Team
Graeme Burt RA Lancaster Uni.
Amos Dexter SL Lancaster Uni.
Philippe Goudket RF Eng. Daresbury Alexander Kalinin RF Eng. Daresbury Carl Beard RF Eng. Daresbury Mike Dykes RF Group Leader Daresbury
Mike Poole (Work Package 5 Leader)
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Crab Cavity work plan 2005
Analysis of requirement. Interact with international community on specification
of crab cavity solution. Design experiment to investigate phase control
limitations. Design of cavity for phase control experiment.
Crab Cavity longer term work plan
Build and operate phase control system experiment. Design experiment to test crab cavity phase control
systems on test beam. Beam testing of cavities and control system.
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Finite crossing angles
The luminosity of a collision is reduced by a finite crossing angle. The beams are rotated for a effective head-on collision, by a crab cavity.
Crabcavity
Crabcavity
Tiltedbunch
Effectivehead-on collision
finite crossingangle
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Transverse deflecting dipole mode
The dipole mode of an elliptical cavity can be used to transversely deflect the beam.
Magnetic field lines of the dipole mode. Beam into page through centre point
Field is uniform in the beam direction
Sinusoidal in time
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KEK-B Crab Cavity
Crab Cavities are currently under test at the KEK-B B factory, these have less stringent phase stability and lower kicks required.
Absorbing materialNotch filter
Absorbing material
Squashed Crab cavity for B-factories
Coaxial beam pipeCooling for inner conductor
(axial view)
inner conductor
"Squashed cell"
(K. Akai et al., Proc. B-factories, SLAC-400 p.181 (1992).)
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Transverse deflecting dipole mode
Magnetic Field as seen by front, middle, and back of the bunch as a function of position across the cavity.
(At any instant the magnetic field is uniform across the cavity)
-1
-0.5
0
0.5
1
0 2 4 6 8 10 12
Position (cm)
No
rma
lise
d M
ag
ne
tic
Fie
ld
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Crab cavity operation
B = max field in crab cavityd = distance from cavity to interaction pointfield jitter between cavities gives differing bunch rotation
mceBd2
crab
For optimum cell length
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Transverse deflecting dipole mode
Magnetic Field as seen by front, middle, and back of the bunch as a function of position across the cavity for phase error.
-1
-0.5
0
0.5
1
0 2 4 6 8 10 12
Position (cm)
No
rma
lise
d M
ag
ne
tic
Fie
ld
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Momentum mismatch
Δx
Differential phase jitter causes the two bunches to have a height mismatch, which can significantly reduce luminosity or cause the bunches to miss.
m
tsindBe2x o to = time bunch enters cavity
d = distance to IP
to = 0
to ≠ 0
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Issues
Position of crab cavities Type of crab cavity Frequency of operation How phase jitter affects luminosity? How field stability affects luminosity? Effect of wakefields i.e. cavity harmonics Performance of phase control systems
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Crab cavity phase control system
Fast phase adjust using a second klystron and fast phase difference.
Diagram by J. Frisch
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Crab cavity Phase stabilization Test System
Diagram by J. Frisch