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Progress update on the
prototype ZEPTO dipole magnet for CLIC
Alex Bainbridge, Ben Shepherd, Norbert Collomb, Jim Clarke, STFC Daresbury Laboratory, UK
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Contents
• Motivation and recap from IMMW20
– Introduction
– The CLIC accelerator
• Dipole Prototype
– Magnet design and modeling
– Engineering and assembly
• Measurement results
– Hall probe maps
– Interesting considerations
– Next steps
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ZEPTO – An Introduction
ZEPTO (Zero Power Tuneable Optics) project is a collaboration between CERN and STFC Daresbury Laboratory to save power and costs by switching from resistive electromagnets to permanent magnets.
(Total facility consumption)
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A hot topic!
Physics World (magazine & online) June 2019 edition
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Motivation - CLIC
333 dipoles333 dipoles
42000
quadrupoles
288 dipoles288 dipoles
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Motivation - CLIC
The plan to use normal conducting systems on CLIC will result in high electrical power consumption and running costs.
Whole CLIC project estimated to draw >580 MW
124 MW projected for resistive electromagnets alone!
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The ChallengeMagnet Type Number Length Strength Range 0.1% good field Power/total
Drive Beam Quads 41400 0.2 m 63 T/m 100-10% 26x26 mm 20 MW
Drive Beam Dipoles 576 1.5 m 1.6 T 100-50% 40x40 mm 12.4 MW
Linac Quads 1061 0.5 m 14 T/m 100-10% 80x80 mm 6.3 MW
Linac Quads 1638 0.25 m 17 T/m 100-10% 87x87 mm 10.3 MW
Main Beam Dipoles 666 1.5 m 0.5 T 100% 30x30 mm 2.5 MW
Damping Ring Quads 408 0.4 m 30 T/m 100-20% 80x80 mm 4.7 MW
Damping Ring Quads 408 0.2 m 30 T/m 100-20% 80x80 mm 3.3 MW
Chicane Dipole 184 1.5 m 1.6 T 100-10% 80x80 mm 7.7 MW
Chicane Dipole 236 1 m 0.26 T 100-10% 80x80 mm 1.1 MW
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Previous work
Previously developed high and low strength variants of a tuneable permanent magnet quadrupole
More info @:B. J. A. Shepherd et al., “Tunable High-Gradient Permanent MagnetQuadrupoles”, Journal of Instrumentation, Vol 9, T11006, 2014.
And
B. J. A. Shepherd et al., “Design And Measurement Of A Low-Energy Tunable Permanent Magnet Quadrupole Prototype”,Proc. 5th Int. Particle Accelerator Conf. (IPAC’14), Dresden, Germany, June 2014, paper TUPRO113, pp. 1316-1318.
Patent WO-2012046036-A1
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Dipole Prototype
• Focus on the most challenging case (576 dipoles for drive beam turn-around loop).
– Length 1.5 m, strength 1.6 T, tuning range 50-100%
• Settled on C-design that uses a single sliding PM block to adjust field
• Advantages:
– Tunes without changing gap!
– PM moves perpendicular to largest forces
– Curved poles possible
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Dipole Prototype
• Original plan was to build a 0.5m version of full size DB TAL magnet
– Not possible within available budget (£100,000)
• So, instead we have constructed a scaled version
– Cost was dominated by one off PM block costs (>50%)
– Still demonstrates the tuneable PM dipole principle.
Type Length
(m)
Max Field
Strength (T)
Pole Gap
(mm)
0.1% good field
(integrated)(mm)
Range (%)
DB TAL 1.5 1.6 53 40 x 40 50–100
Original Prototype 0.5 1.6 53 40 x 40 50–100
Scaled Prototype 0.4 1.1 40 30 x 30 50–100
Actually built as 44
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Magnet Block
• Magnet block dimensions are 500x400x200 mm, with 4 holes on 400mm axis for mounting rods.
– Constructed from 80 individual blocks (each 100x50x100mm) in resin
• Manufactured, measured & delivered by Vacuumschmelze
• Magnet material NdFeB, Vacodym 745TP
• Br 1.38T min, 1.41T typical
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Modelling
Magnet simulations performed in OPERA 3D
Mesh deals with small gaps and non-magnetic fasteners
Not component deflection
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Predicted Flux Density
Predicted magnetic flux density at the geometric center of the magnet as a function of block displacement.
OPERA’s 2 calculation methods agree to within the width of the fitting line.
50 % tuning mark reached at 355 mm displacement.
0,4
0,5
0,6
0,7
0,8
0,9
1
1,1
1,2
0 100 200 300 400
Cen
tral
Flu
x D
ensi
ty /
T
PM Displacement / mm
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Longitudinal Profile
Block affects longitudinal field profile differently at different positions in beam pipe.
Big effect just outside magnet
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Shim Structure
Need to counter effect of block onHomogeneity!
Use asymmetric shim – roll-off on side of magnet to weaken field, shim on far side to strengthen.
Big question – would this actually work in the real world???
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Integrated HomogeneityThe optimised pole design meets the target to 20mm each side of the beam axis.
Balancing pole shape with saturation makes homogeneity relatively independent of PM block position.
IN SIMULATIONS!
-2,0E-03
-1,5E-03
-1,0E-03
-5,0E-04
0,0E+00
5,0E-04
1,0E-03
1,5E-03
2,0E-03
-30 -25 -20 -15 -10 -5 0 5 10 15 20 25 30 35 40
Inte
grat
ed
Ho
mo
gen
eit
y Δ
B/B
0
X Position / mm
PM displacement=0, B0@X=0 PM displacement=300, B0@X=0
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Magnetic Forces
0
10
20
30
40
50
60
70
80
90
0 100 200 300 400 500
Ma
gn
eti
c F
orc
e / k
N
PM Displacement / mm
FYG
FYM
FX
FXFYG FYM
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Engineering
• Sliding assembly using rails, stepper motor and gearbox.
Motor
“T-
gearbox”
Right
angle -
gearbox
Ballscrew
Nut
Sideplate &
Nut Plate
Assembly
Permanent
Magnet
3 support rods hold jaws of magnet fixedCan be independently adjusted
Poles held 2 mm from surface of block
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Assembly
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The final assembly
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Methodology
Hall probe measurements were conducted at the magnet test facility at Daresbury (stretched wire also planned but not yet completed)
Laboratory features a granite measurement bench with 3-axis motion stages with 1 micron precision in X and Y and 5 micron on-the-fly in Z.
Equipped with a 3-axis Hall probe (MetroLab THM1176-HF), each measurement point is mean of 100 or 1000 rapid readings to reduce noise.
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Flux density behaviour
We achieve the 50% tuning goal by displacing the block 363 mm
Well within magnet specification and very close to the simulation!
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Flux density behaviour
We achieve the 50% tuning goal by displacing the block 363 mm
Well within magnet specification and very close to the simulation!
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Flux density behaviour
Simulated and measured flux density within 2% across entire range.
Very good result –discrepancy may arise from combination of PM material Hc/Br, steel BH curve, build tolerances and movement of components
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Stroke hysteresis / backlash
Very low levels of hysteresis –much better than expected!
Will this remain true over several iterations of motion?
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Transverse profile
Transverse profile matches simulations well, especially when adjusted to account for slight strength discrepancy.
This is the field at the dipole centreline, not integrated, hence unusual profile.
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Longitudinal profile
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Slight problem!
Slip gauge measurements explain this – gap is almost 0.25mm wider at the –Z end!!!
Serious error in construction –important to measure carefully as separate components lead to increased likelihood of construction errors!
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But fortunately fixable
End Block Pos Slip gauge
Z- 398 44.3
Z+ 398 44.07
Z- 0 44.18
Z+ 0 43.91
Ceramic slip gauges used to examine the magnet gap –
movement during transport between assembly site and lab suspected. Also movement
related to PM block position.
(Nominal gap 44mm)
Gap changes by 0.23 mm along length at
weakest position and 0.27 mm along length
at strongest position.
Gap at –Z end changes by 0.12 mm during
PM movement.
Gap at +Z end changes by 0.16 mm during
PM movement.
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But fortunately fixable
Cannot do any machining to
pole faces once magnet is
assembled.
However 3 support pillars have
screw threads allowing
independent adjustment with a
very big (and non-magnetic!)
spanner.
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Before and after
1,095
1,097
1,099
1,101
1,103
1,105
-250 -150 -50 50 150 250
1,095
1,097
1,099
1,101
1,103
1,105
-250 -150 -50 50 150 250
Flu
x d
en
sity / T
Position / mm
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Before and after
Flu
x d
en
sity / T
Position / mm
0,475
0,476
0,477
0,478
0,479
0,48
-250 -150 -50 50 150 250
0,475
0,476
0,477
0,478
0,479
0,48
-250 -150 -50 50 150 250
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Longitudinal profile
0
0,1
0,2
0,3
0,4
0,5
0,6
0,7
0,8
0,9
1
1,1
1,2
-800 -600 -400 -200 0 200 400 600 800
Flu
x d
en
sity / T
Z Position / mm
M=398
M=300
M=200
M=100
M=0
S=400
S=300
S=200
S=100
S=0
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Plane mapping
Have more work to do here with a redesigned frame!
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Plane mapping
Have more work to do here with a redesigned frame!
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The next steps
1) Find a way of removing the pillars? Allows for completing plane maps and also proper stretched wire measurements.
2) Use new measurements to make a final assessment of the integrated field quality – did the asymmetric shim technique actually work as intended?
3) If time/money available, look at expanding on the design e.g. addition of secondary circuit, field clamping plates e.t.c.
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Conclusions• Tuneable permanent magnets have until recently been limited to fixed field or low
tuneability applications – but large tuning ranges are now possible with purely permanent magnet systems.
• The dipole prototype design, despite representing a significant engineering challenge, is a viable system (albeit with room for significant development further). Simulations and measurements are reasonably well aligned.
• One needs to consider more than just the magnetic field when characterising such a magnet – mechanical considerations are serious and even with the most precise engineering small movements will occur and may have big effects!
• And finally something to bear in mind – these kind of magnets may or may not be right for you! Although they have significant savings in power and infrastructure over conventional electromagnetic dipoles, the larger they are they harder it gets!
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Ben Shepherd Michele ModenaJim Clarke Norbert Collomb
+ Thanks to James Richmond, Graham Stokes, Antonio Bartalesi, Mike Struik, Marco Buzio, Samira Kasaei, Carlo Petrone
+ The many engineers/riggers at Daresbury who have contributed
Acknowledgements
Funding from STFC and CLIC @ CERN
Neil Marks