Download - A Four Rod Compact Crab Cavity for LHC
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A Four Rod Compact Crab Cavity for LHC
B HallLancaster University / Cockcroft
Institute
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194mm
LHC Crabbing upgrade• Crabbing provides significant
Luminosity advantages.• Local crabbing scheme has
been chosen for LHC upgrade.
• Compact size needed do to limited space (~150mm space available compared to ~350 needed for orthodox cavity).
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Previous design
E field
B field
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Rod cross-section
• If the rod is shaped around the beam-pipe a higher gradient can be obtained as the current is spread over a larger area.
• The peak magnetic field also moves to the side of the rods away from the beampipe
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Variation in Original Transverse Voltage
In the original design there was some variation in transverse voltage across the cavity aperture which would result in a varying kick across the beam
0 5 10 15 20 250
0.5
1
1.5
2
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3
3.5
Vertical Offset (mm)
Tran
sver
se V
olta
ge
(MV)
E field
0 2 4 6 8 10 12 14 16 18 200
0.5
1
1.5
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Horizontal offset (mm)
Tran
sver
se V
olta
ge
(MV)
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Plate-like rods
• Wide rods however have high surface fields which makes this design unsuitable.
50 100 150 200 250 300 3500.00%
2.00%
4.00%
6.00%
8.00%
10.00%
12.00%
14.00%
16.00%
Rod width (mm)
% d
rop
in d
efle
ctin
g vo
ltage
at 3
0 m
m o
ffset
• Flatness only a concern across aperture
• Wide flat rods are preferred for minimal voltage variation.
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New shape
Useful
superfluous
superfluous
Adding focussing electrodes to narrow rods, can however provide parallel equipotential lines emulating the wider rods.
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Horizontal variation
0 2 4 6 8 10 12 14 16 18 202.9
2.95
3
3.05
3.1
3.15
3.2
Horizontal offset (mm)
Tran
sver
se V
olta
ge
(MV)
0 2 4 6 8 10 12 14 16 18 202.9
2.95
3
3.05
3.1
3.15
3.2
Horizontal offset (mm)
Tran
sver
se V
olta
ge
(MV)
Old
New
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Vertical variation
0 5 10 15 20 251.7
1.9
2.1
2.3
2.5
2.7
2.9
3.1
Vertical offset (mm)
Tran
sver
se V
olta
ge
(MV)
0 5 10 15 20 251.7
1.9
2.1
2.3
2.5
2.7
2.9
3.1
Vertical offset (mm)
Tran
sver
se V
olta
ge
(MV)
Old
New
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Voltage Variation - deflecting
• Transverse voltage is relatively uniform for the first 20mm [<1% variation]
• Rises to 3.8% at 35 mm (compared to 3.3% for a pillbox cavity)
• Variation at large offset is due to field enhancement at the edge of the rods.
• Azimuthal variation seen primarily at large radii.
0 5 10 15 20 25 30 35 400
0.5
1
1.5
2
2.5
3
3.5
0306090
Offset (mm)
Tran
sver
se V
olta
ge (M
V)
Angle
HighLow
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Voltage Variation – parasitic(vertical)• There is some unwanted kick in
the vertical direction.• Large vertical kick near the
edges of the rods due to field enhancement but small away from the rod edges.
0 5 10 15 20 25 30 35 40
-0.3
-0.2
-0.1
0
0.1
0.2
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0306090
Offset (mm)
Tran
sver
se V
olta
ge (M
V)
Angle
0 0.2 0.4 0.6 0.8 1 1.2 1.4 1.6
-0.30
-0.20
-0.10
0.00
0.10
0.20
0.30
0.40
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5152535
Angle (Rad)
Tran
sver
se v
olta
ge (M
V)
HighLow
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Final Cavity Shape
Emax @3MV 32.0 MV/mBmax @3MV 60.5 mTTransverse R/Q 764.6 Ohms
The cavity design includes a 280mm / 230 mm diameter squashing to increase coupling to the LOM when a coupler is included.
Cavity fits in all LHC scenarios (84mm aperture) and meets design gradient.
E field
B field
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Final Cavity Design406mm
236 mm
286 mmCut away of final design showing rods,
84 m
m
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Four TEM modes+ + +
+
+
+
- -
-
-
-
-
+
+ +
+
There are two parallel bar TEM modes, only one interacts with the beam and this is our operating mode
There are also two co-axial like TEM modes (potential difference between rods and outer can), only one of these interacts with the beam, this is our wrong or lower order mode (W/LOM)
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LOM Frequency 375.18 MHzR/Q 62.2 Ohms
Lower Order mode
200 220 240 260 280 300 3200
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Squash / mm
Q e
xter
nal
• The four-rod cavity also has a lower order mode (LOM).
• This mode has an azimuthal magnetic field flowing around the outer can which is ideal for waveguide coupling.
• The fields are weaker far from the rods so the squashed shape enhances coupling.
LOM coupler reduces the frequency of this mode by 20 MHz.
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Demountable Coaxial coupler• Demountable HOM style coupler based of
the LEP design. • Pull-out for coupler provides additional
access to cavity for cleaning.• External-Q’s down to 67 have been
achieved for 2 couplers, depending on the penetration of the hook into the cavity.
• To ensure symmetric fields the couplers can be placed on opposing sides of the can.
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Cavity Cleaning• Beam-pipe is large
and can be used as access for cleaning.
• Large demountable LOM couplers can also be used for cavity cleaning and/or draining acid.
HPR nozzle
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0.001
0.01
0.1
1
10
100
1000
0 0.5 1 1.5 2R
/Q (O
hms)
frequency (GHz)
HorizontalVerticalMonopole
Higher Order ModesWe also have some TEM HOMs. As the cavity is compact in the vertical plane most of the TM modes are at higher frequencies, and the TE modes have low shunt impedances.
Monopole 3p/4 resonator
Dipole 3p/4 resonator
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Input coupler• Capacitive coupling would
require a horizontal electrode which would interfere with the opposing beamline.
• Magnetic coupling is required (either a loop or waveguide)
• A waveguide coupler at 400 MHz would be large compared to the cavity and would have a large heat leak.
• Instead we propose a cut-off waveguide to couple to the cavity and then use a waveguide to coaxial transition.
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Multipacting• Some multipacting on the outer can has been
found at low E field. Vt ~ 150 kV. • As cavity voltage increased the multipacting is
pushed towards the base of the rods. • This is close to the region where we plan to
place the LOM coupler so this may disrupt the multipactor.
• Outer can trajectories follow a square step like path over several phases. There are 3rd and 7th order trajectories.
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Multipactor Trajectories• Multipacting on the beam pipe was found in the
racetrack model ~1.6MV.• Methods of removing the multipacting are being looked
into, including;• Altering the beam pipe shape, • Adding ridges to disrupt local field patens.
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Cavity Prototype• UK have placed an order for an
aluminium cavity.• Bead pull and coupler
verification will be preformed on the aluminium cavity.
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Niobium cavity construction (without couplers)
Rods x 4 (pressed or hydroformed)Rods and base may be deep drawn or extruded as 1 piece.
Beam-pipe (rolled)
End caps would be pressed
Shell (rolled)
Some components could possible be machined from solid Nb instead
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Conclusion• A new cavity shape is proposed for the
LHC.• The crabbing TEM mode allows a very
transversely compact design.• The compact size does not impact of the
cavity fields greatly.• Coupler designs are under investigation.• A prototype is on order.