Harmonic RF Kicker Development for CCR/ERL Cooler...Harmonic RF Kicker Development for CCR/ERL...
Transcript of Harmonic RF Kicker Development for CCR/ERL Cooler...Harmonic RF Kicker Development for CCR/ERL...
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Harmonic RF Kicker Development for CCR/ERL Cooler
Haipeng WangThomas Jefferson Lab
EIC Accelerator Collaboration Meetingat BNL, Upton, New York,
October 10-12, 2017
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• CCR concept, strip-line kicker, LDRD, new numerologyAndrew Hutton, Edward Nissen, Amy Sy, Andrew Kinber, Andrew Dotson
• Harmonic RF cavity kicker design, prototype, elegant BD simulation, cavity bench measurement,
+Yulu Huang, PhD 2016 (JLab/IMP) from Lanzhou, ChinaHaipeng Wang, Robert Rimmer, Shaoheng Wang, Jiquan Guo
• Prototype cavity fabrication+Jim Henry, Larry Turlington, Bill Clemens, Damon Combs, Jim Follkie…
• Time domain measurement improvement, frequency domain wire-stretching measurement for e-center on the HK cavity+Sarah Overstreet
• New cavity design, RF-thermal analysis+Gunn-Tae Park, Fredrik Fors
• “Straight” merger, beam test plan, other applications like EIC, LCSL-II, CLS+all
Outline and Contributions
EIC Collaboration Meeting 2 Oct. 10-12, 2017, Upton, New York
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From ERL Cooler to CCR/ERL Cooler
EIC Collaboration Meeting 3 Oct. 10-12, 2017, Upton, New York
L1
L2
L3
L4
L5
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From Strip-line Kicker to RF Harmonic QWR
EIC Collaboration Meeting 4
500 Times more total RF power needed for strip-line than RF kicker for a given kicking angle and a waveform (JLab-TN-15-040)
Oct. 10-12, 2017, Upton, New York
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4-Cavity Model Based on Flat-Top Scheme
5EIC Collaboration Meeting Oct. 10-12, 2017, Upton, New York
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QWR-based Deflecting Cavities
6
∫∞
∞−
+= dzzzcBzzEVn
ynn
xntn )]2sin()()2cos()([λπ
λπ
∑=
++=N
nntnt tnVVV
100 )cos( ϕω
The effective transverse kick voltage of the nth harmonic mode can be calculated from:
The electron bunches traveling through the cavity will be deflected by both the transverse electric and magnetic fields.
The total kick voltage from all harmonic modes is:
• Kick can be in both +x/-x direction by using odd harmonics only
• Higher harmonics always help the flatness of bunch kick
• Harmonic mode number N can have as least as half of CCR turn
NM ≤−12
For odd+even scheme, the relationship between cavity number M and maximum harmonic number N can be supported as:
EIC Collaboration Meeting Oct. 10-12, 2017, Upton, New York
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Harmonic Kicker Waveform Synthetization
7
Ref: Y.Huang, H.Wang, R.A.Rimmer, et al. Phys. Rev. ST Accel. Beams 19, 084201 (2016)
• Correct the pulse curvature of the Least-Mode
• Reduce the harmonic number to half
Kick every 10th bunch as example
EIC Collaboration Meeting Oct. 10-12, 2017, Upton, New York
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Pre-distortion (De-chirp) and Post-distortion (Re-chirp) Kickersto Compensate the Kicking Pulse Curvature
8EIC Collaboration Meeting Oct. 10-12, 2017, Upton, New York
Ref: Y.Huang, H.Wang, R.A.Rimmer, et al. Phys. Rev. ST Accel. Beams 19, 084201 (2016)
Tracking result with Kicker 3,1,2
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f 0 0.1, 952.6..:= (MHz) Design value: L 821:= (mm)
0 86.6 173.2 259.8 346.4 433 519.6 606.2 692.8 779.4 866 952.62−
1.3−
0.7−
0
0.7
1.3
2
2−
1.3−
0.7−
0
0.7
1.3
2
=2pifZ0Cg g=35mm=2pifZ0Cg g=70mm=2piZ0Cg g=100mm=0=cot(2pifL/clight)
5-harmonic QWR design by graphic solution
Frequency (MHz)
=2*p
i*Fr
eq*Z
0*C
g
=cot
(2*p
i*Fr
eq*L
/clig
ht)
• Cavity length is sensitive to all odd harmonics
• Stub tuning will fine tune each mode on resonance
• Gap distance has less effect on the harmonic tuning
Analytical Model of Harmonic Kicker Cavity Design from Text Book
EIC Collaboration Meeting 9 Oct. 10-12, 2017, Upton, New York
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Half Scale of 476.3MHz Copper Prototype
10
31.5 inch
6 inch2 inch
Beam pipeInput coupler port
Stub tuners
Pickup port
“Half scale” copper prototype with 5 odd harmonic mode
95.26 MHz285.78MHz476.3MHz
666.82MHz857.34MHz
EIC Collaboration Meeting Oct. 10-12, 2017, Upton, New York
Ref: Y.Huang, H.Wang, R.A.Rimmer, et al. Phys. Rev. ST Accel. Beams 19, 122001 (2016)
Ref: Yulu Huang, PhD thesis in 2016, IMP/JLab, JLAB-ACC-16-2444
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Straight Tapers and Stub Tuners Design
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• With the taper design, the frequencies of all harmonic modes can be optimized to exact odd multiple harmonics, the errors are within +/- 0.001% from their targets.
• Manufacturing errors and other errors can be tuned back by the stub tuners with a similar process.
• Stub tuners insert 25mm as the baseline of taper to get a bi-directional tuning range.
EIC Collaboration Meeting Oct. 10-12, 2017, Upton, New York
Ref: Y.Huang, H.Wang, R.A.Rimmer, et al. Phys. Rev. ST Accel. Beams 19, 122001 (2016)
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Fabrication and EBW Details
12
Alignment of EBW of the outer conductor with the
tuner pipes
EBW of the inner conductor to the magnetic end flange
EBW of the outer conductor with electric end flange
stub tuners assembly
inner conductor cap threaded to the inner conductor bar
Loop coupler and pickup for bench measurement antenna
EIC Collaboration Meeting Oct. 10-12, 2017, Upton, New York
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Resonant Frequencies and Tuning Process
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−+−+−−++−−−−−−+−−++−++−−−
=
1.42233.140.40117.976.4045.26508.2025.748.2165.1533.1042.1502.1809.12609.47
134.93.100583.807.33803.4370.9465.380.1793.2626.31
tunerM
Tuning matrix from measurement, mij is the 1rst order (linear) frequency response of mode i to tuner j in units of kHz/mm.
EIC Collaboration Meeting Oct. 10-12, 2017, Upton, New York
Measurement after fabrication without tuning
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S-parameters, Unloaded Q Measurements
14EIC Collaboration Meeting Oct. 10-12, 2017, Upton, New York
Ref: Y.Huang, H.Wang, R.A.Rimmer, et al. Phys. Rev. ST Accel. Beams 19, 122001 (2016)
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Setup of Harmonic Summation and New Measurement Techniques
New: Sarah, 2017, Summer Intern ReportOld: Yulu, PRAB 19, 122001 (2016)
• Sample sum voltage on stretched wire than pickup probe
• HP/LP filters built for noise reduction of the wire-stretching measurement from motor and RF source
• Retune the cavity with new bump and with the wire
• Wire-scanning for e-center and multiple analysis
Also Yulu Huang PhD Thesis, JLAB-ACC-16-2444Or DOE/OR/23177-4174
stub tuning
5-harmonic spectrum
Time-domain waveform
wire x-scan
New technique
EIC Collaboration Meeting 15 Oct. 10-12, 2017, Upton, New York
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Distribution of EM Field Components along the Beam Axis from CST
16
• The dominant Field component is the deflecting electric field Ex
• The longitudinal field Ez is much smaller than the deflecting field(maximum 10% in magnitude squared).
• The magnetic field Hy is much weaker, and much smaller for the lowest harmonic mode (0.1% in magnitude square) and relatively larger for the highest harmonic mode (6% in magnitude square).
Ex Ez Hy
EIC Collaboration Meeting Oct. 10-12, 2017, Upton, New York
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Bead-pull Results Compared with the CST Simulation Results
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• Dielectric sphere (left), metallic sphere (right) to measure Eabs• Very good agreement after carefully calibration of beads with a pill-box cavity• The longitudinal electric field and the magnetic field are too weak to be
separated out.
EIC Collaboration Meeting Oct. 10-12, 2017, Upton, New York
Ref: Y.Huang, H.Wang, R.A.Rimmer, et al. Phys. Rev. ST Accel. Beams 19, 122001 (2016)
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Harmonic Kicker Frequencies for JLEIC and UITF/LERF Test
952.64𝑀𝑀𝑀𝑀𝑀𝑀11 = 86.6𝑀𝑀𝑀𝑀𝑀𝑀
CEBAF/UITF/LERF RF
PEP-II or JLEIC e-ring RF
harmonic kicker base RF
CCR turns
• 5 Odd harmonic frequencies of RF kicker: 86.6 MHz x1, x3, x5, x7, x9, +DC=86.6MHz, 259.8MHz, 433.0 MHz, 606.2 MHz, 779.4 MHz, +DC• CCR harmonic number can NOT be multiple of 11• More even harmonics help the kick pulse flatness and reduction of slopes of zero crossing
JLEIC i-ring/ERL RF frequency
136.1 𝑀𝑀𝑀𝑀𝑀𝑀11 =
86.6 𝑀𝑀𝑀𝑀𝑀𝑀7 = 12.37 𝑀𝑀𝑀𝑀𝑀𝑀
photo cathode laser reprate in UITF/LERF test 1497 𝑀𝑀𝑀𝑀𝑀𝑀
11 = 136.1𝑀𝑀𝑀𝑀𝑀𝑀
kicked beam reprate in UITF/LERF test
1497 𝑀𝑀𝑀𝑀𝑀𝑀 ×7
2 × 11= 476.32𝑀𝑀𝑀𝑀𝑀𝑀
2 × 476.32𝑀𝑀𝑀𝑀𝑀𝑀 = 952.64𝑀𝑀𝑀𝑀𝑀𝑀
476.32𝑀𝑀𝑀𝑀𝑀𝑀11
= 43.3𝑀𝑀𝑀𝑀𝑀𝑀 Baseline JLEIC ERL gun laser reprate
EIC Collaboration Meeting 18 Oct. 10-12, 2017, Upton, New York
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Old/New CCR/ERL Beam Dynamic Parameters Comparison
New: from S. Benson’s Status Report, July 2017
Old: from Y. Huang’s PhD thesis, Dec. 2016Parameter Old Value New Value Unit
Electron energy 55 20-55 MeV
Charge per bunch 3.2 2.0 (3.2) nC
Bunch length at CCR 3 (rms) 2 (tophat) cm
Bunch distribution Gaussian Beer can
Bunch / cavity highest frequencies 476.3/476.3 476.3/952.6 MHz
Normalized transverse emittance at cooling channel 1.074 (non-mag) 36 (mag, drift) mm mrad
Normalized vertical emittance at cooling channel 1.074 (non-mag) 36 (mag, drift) mm mrad
Energy spread (uncorr) 3E-4 3E-4
Recirculation turns 10 11 No.
Kick angle 1 2.5 mrad
Total kick voltage 55 137.5 kV
Beam-stay-clear aperture on kicker cavity (dia.) 70 >70 mm
EIC Collaboration Meeting 19 Oct. 10-12, 2017, Upton, New York
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Old/New CCR Turns and Harmonic Numbers Comparison
Old: Dec. 2016
CCR turns: 10Cavity harmonics: 10 (5 odd, 5 even)Cavity base frequency: 47.63MHzCavity number per side: 4
EIC Collaboration Meeting 20 Oct. 10-12, 2017, Upton, New York
CCR turns: 11Cavity harmonics: 5 odd + DCCavity base frequency: 86.60MHzCavity number per side: 1
New: Jul. 2017
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New ¼ λ11 Length Stub Symmetrizer to Minimize Beam Loading
Old 2016
New, July 2017
Symmetrizeroptimization by Yuluin her thesisDec. 2016
Standing wave of Er on inner conductor surface
• Both simulation (CST) and measurement studies for this modification• 5-Stub tuners could not turn higher harmonics back to targets• Fixed stub length can only symmetrize e-center on one of harmonic
but not lower and higher ones• Only 952.6 MHz mode (and 476.3MHz) needs zero beam loading
Ex & Ez vs z
z
Ex
Ez
Slice & Mirror Boolean
EIC Collaboration Meeting 21 Oct. 10-12, 2017, Upton, New York
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CST Simulation Result with New Stub on Old Cavity
(TE11s in stub plane Z)
2
3
(TE11s in plane Y)
EIC Collaboration Meeting 22 Oct. 10-12, 2017, Upton, New York
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CST Simulation Result with New Stub on Old Cavity
• Increase the stub length by 16.1mm will see the e-center of 857.6MHz (HM5) instead of 1047.9MHz (HM6)
• Need fine tune both stub and cavity lengths for new cavity design
• Need to suppress TE11s higher than HM6, Freqcutoff ≅clight/[π(a+b)], more difficult for larger (a+b)
(TE11s in stub tuner plane Z)
(TE11s in plane Y)
(starts degenerate to TE11s)
(TE11s in plane Y)
(TE11s in stub tuner plane Z)
(TE11s in plane Y)
EIC Collaboration Meeting 23 Oct. 10-12, 2017, Upton, New York
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Analytical Model of Harmonic Kicker Cavity Design from Text Book
+ capacitance due to the fringe field
Disk capacitance
fringe field enforcement factor, new! not in exact format yet
𝑅𝑅𝑅𝑅𝑅𝑅𝑅𝑅𝑇𝑇2
Normalized transverse shunt impedance
EIC Collaboration Meeting 24 Oct. 10-12, 2017, Upton, New York
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Scaling Calculation of 5-Odd 5-Even Harmonic Kicker Cavity Design for 952.6MHz
EIC Collaboration Meeting 25 Oct. 10-12, 2017, Upton, New York
476.5 MHz cavity design
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Scaling Calculation of New 5-Odd Harmonic Kicker Cavity Design for 779.4MHz
EIC Collaboration Meeting 26 Oct. 10-12, 2017, Upton, New York
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New Cavity Design Estimate and Initial Mechanical Analysis
• Cavity Long Side Length (down): ~820mm
• Cavity Short Side Length (up): ~83mm (with symmetrizer) ~50mm (without Symmetrizer)
• Cavity OD: ~332mm Cavity inner conductor OD: ~117mm
• Cavity Beam-Stay-Clear Aperture (dia.): (70mm, 6.25kW); (100mm, 20kW)
• Less thermal problem to handle 7kW• More problems to bring 6th Odd in.
i.e. on the HOM (TE11s) suppression• Less efficiency of 6th mode on its
beam voltage to RF power• Max temp. 54oC on Stub houses for
1.56kW RF power deposition with inner and outer conductor water cooling. Inlet 35oC, outlet 40oC. No cooling optimization yet
vacuum stress analysis
RF-thermal(ANSYS) analysis for 1.56kW Power deposition
EIC Collaboration Meeting 27 Oct. 10-12, 2017, Upton, New York
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Oct. 10-12, 2017, Upton, New YorkEIC Collaboration Meeting 28
Summary• Beam dynamic (Elegant) simulation have demonstrated that a pair of
Harmonic Kickers (Injection + Extraction) and (De-chirping + Re-chirping) can do the CCR beam circulation without degradation of both kicked and un-kicked beam emittance
• Half scale copper cavity have been prototyped for the bench measurement, no any technical difficulty has been found
• The bead-pull and wire-stretching measurement fully agrees with simulation result and electric center prediction
• The “half-scale” cavity could become a true scale of cavity for the CCR beam in future and its next vacuum type cavity can be used for the beam test at UITF or LERF injector test facility
• Larger beam aperture (>70mm), 86.6MHz base frequency, suppression of TE11 modes for the 5-Odd+DC scheme are all at the cost of higher RF power
• HKC concept and its development will have many benefits to other small emittance conservation application: like “straight” merger, future LCLS-II beam switching and delivery system, CEBAF positron source, etc
• SRF application using least modes option for the high energy beam deflection or crabbing (like EICs here)
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Thanks!
Backup Slides
Oct. 10-12, 2017, Upton, New YorkEIC Collaboration Meeting 29
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Challenges and Solutions
30
~ns ~10 of nsFew kV
Few mrad
Pulsed power supplies, especially with these characteristics are beyond state of the art.
An alternative driving method is summing simple cosine waves at sub-frequencies of the final beam repetition frequency to generate a continuous waveform.
0 0.5 1 1.5 2 2.5 3 3.5 4 4.5 5 5.5 614
12
10
8
6
4
2
0
2
4
6
8
10
12
14
2π0 s
Oct. 10-12, 2017, Upton, New YorkEIC Collaboration Meeting
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Multi-Cavity Kick-Drift Modeling in Elegant
31
X’X
1 mrad
Incoming bunch
Outgoing bunch
Recirculating bunch
Oct. 10-12, 2017, Upton, New YorkEIC Collaboration Meeting
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32
Monitor 1Monitor 2 Monitor 3
Multi-Cavity Kick-Drift Tracking in Elegant
Oct. 10-12, 2017, Upton, New YorkEIC Collaboration Meeting
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Monitor 1
Monitor 3Monitor 2
Monitor 1
Monitor 2 Monitor 3
Multi-Cavity Kick-Drift Tracking in Elegant
Oct. 10-12, 2017, Upton, New YorkEIC Collaboration Meeting
![Page 34: Harmonic RF Kicker Development for CCR/ERL Cooler...Harmonic RF Kicker Development for CCR/ERL Cooler Haipeng Wang Thomas Jefferson Lab EIC Accelerator Collaboration Meeting at BNL,](https://reader034.fdocuments.net/reader034/viewer/2022042810/5f974511ee81367d0f43461d/html5/thumbnails/34.jpg)
BD Simulation in ELEGANT for CCR Using Two Sets of Harmonic Kickers
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With two kickers separated 180 degree inBetatron phase advance, emittance growth dueto the residual wave slopes between the kickingpulse can be totally cancelled.
Emittance growth mainly comes from theinjection and ejection process, which is onlydetermined by the kicking pulse curvature.
Oct. 10-12, 2017, Upton, New YorkEIC Collaboration Meeting
Ref: Yulu Huang, PhD thesis in 2016, IMP/JLab, JLAB-ACC-16-2444
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BD Simulation in ELEGANT Using Four Kickers and Kick-Drift Models
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Kicking pulse curvature can becompensated by a pre Kicker 3 toKicker 1 for CCR and a post Kicker 4to Kicker 2. for ERL with phaseadvance of π.
Emittance growth sensitive to thepath length, voltage and phase errorshas been summarized in followingtable
Ref: Yulu Huang, PhD thesis in 2016, IMP/JLab, JLAB-ACC-16-2444
Oct. 10-12, 2017, Upton, New YorkEIC Collaboration Meeting
![Page 36: Harmonic RF Kicker Development for CCR/ERL Cooler...Harmonic RF Kicker Development for CCR/ERL Cooler Haipeng Wang Thomas Jefferson Lab EIC Accelerator Collaboration Meeting at BNL,](https://reader034.fdocuments.net/reader034/viewer/2022042810/5f974511ee81367d0f43461d/html5/thumbnails/36.jpg)
HOM Power Deposition Analysis
Oct. 10-12, 2017, Upton, New YorkEIC Collaboration Meeting 36
• for 5-Odd+5-Even HK scheme
• No bump symmetrizer• Up to 100 HOMs have
been calculated• Safely avoid CCR beam
excitation with no bunch train gap structure
• Only 8.21W of HOM power on the 5-odd mode copper cavity without damping couplers
• Need to study for new cavity design and the beam spectrum with CCR+ERL and ion clearing gap structure
Ref: Yulu Huang, PhD thesis in 2016, IMP/JLab, JLAB-ACC-16-2444
Gaussian vs Beer Can bunch spectrums
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Oct. 10-12, 2017, Upton, New YorkEIC Collaboration Meeting 37
Multiple Field Analysis for Beam Dynamics
• All odd and evens mode cavities without symmetry bumps have been analyzed with CST
• Up to b5 terms in both normal and skew terms have been calculated
• Elegant tracking study shows that only an observable emittance grow due to an artificially increase of sextuple component amplitudes by three-orders
• Wire-stretching technique to measure the multiple field is under the study and the test on the prototype cavity
Ref: Yulu Huang, PhD thesis in 2016, IMP/JLab, JLAB-ACC-16-2444