cyclotron rf systems - cas.web.cern.ch · • capacitance rotating in vacuum • acceleration...
TRANSCRIPT
![Page 1: cyclotron RF systems - cas.web.cern.ch · • capacitance rotating in vacuum • acceleration electrode C Dee • operational parameters • acceleration voltage ~20 kV • RF power](https://reader033.vdocuments.us/reader033/viewer/2022060609/606065e1c287cc6ea0713c2b/html5/thumbnails/1.jpg)
sb/CAS10061/1
cyclotron
RF
systems
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sb/CAS100562
outline• cyclotron basics
• resonator design techniques• transmission line • 3D finite element
• tuning
• power coupling
• RF control
• flat topping
• some specific examples
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sb/CAS100563
cyclotron basics• original observation: homogeneous magnetic field isochronous
(Lawrence & Livingston 1931)2mv
RqvB=
centrifugal force Lorentz force
orbmv BqRBq 2 m
= ν =π
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sb/CAS100564
cyclotron basics• original observation: homogeneous magnetic field isochronous
(Lawrence & Livingston 1931)2mv
RqvB= orb
mv BqRBq 2 m
= ν =π
• accelerate with RF electric field with νRF = h νorb (h integer)
• drift tube linac “rolled up” in a magnetic field
Dee
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sb/CAS100565
why it should not work
• transverse optics• homogeneous field: fieldindex n = 0
• Qz, νz= 0; no vertical stabilityè linear growth of vertical beamsize• Qr, νr= 1; resonanceè no stable orbit due to imperfections
• longitudinal optics• isochronous: no longitudinal stability• relativistic mass increaseè loss of synchronisation with accelerating voltage
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sb/CAS100566
why it works after all to some extent
• fringe field effects: fieldindex n = ε > 0• Qz, νz > 0; marginal vertical stability
è large beamsize è bad transmission• Qr, νr < 1; no resonance• “weak” focussing
• loss of synchronisation with accelerating voltage gradualè acceleration possible over limited number of turns• maximum energy dependent on acceleration voltage
50 keV acceleration voltage: 12 MeV protonsBethe and Rose, Phys. Rev. 52 (1937) 1254–1255
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sb/CAS100567
how to get it really working• radially decreasing field + RF frequency modulation
è vertical and phase stabilityE. MacMillan, Phys. Rev. 68 (1945) 144V. Veksler, Phys. Rev. 69 (1946) 244
• synchro-cyclotron è synchrotron è storage ringworkhorse high energy physics
• radially increasing field + azimuthal field modulation• vertical stability and isochronism• Thomas, Phys. Rev. 54 (1938) 580 and 588• isochronous cyclotron
workhorse nuclear physics
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sb/CAS100568
• λ/2 transmission line with capacitive load on both ends
• frequency variation by variation of CR• capacitance rotating in vacuum
• acceleration electrode CDee
• operational parameters• acceleration voltage ~20 kV• RF power 10 – 100 kW• self-oscillating• frequency swing ~20 %
Orsay 19 – 24 MHz• rep rate 100 - 400 Hz
synchrocyclotron
CDeeCR
synchrocyclotron CERN
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sb/CAS100569
• λ/2 transmission line with capacitive load on both ends
• frequency variation by variation of CR• capacitance rotating in vacuum
• acceleration electrode CDee
• operational parameters• acceleration voltage ~20 kV• RF power 10 – 100 kW• rep rate 100 - 400 Hz
synchrocyclotron
synchrocyclotron Orsay
CDeeCR
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sb/CAS1005610
• orbital frequency (non-relativistic) average magnetic field along orbit [T]
Q/A charge-to-mass ratio ion
• typical values• compact RT cyclotrons 1 – 15 MHz• superconducting cyclotrons 6 – 35 MHz• separated sector cyclotrons 1 – 10 MHz• research machines
• multi-particle• multi-energyè large orbital frequency range• typical example SC AGOR-cyclotron @ KVI
• particles protons – Pb• energy 190 – 5.5 MeV/nucleon• orbital frequency 30 - 6 MHz
operational parameters
orbQ15.2 B [MHz]A
ν =
B
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• orbital and resonator frequency ranges incompatibleè use different harmonic modes (example AGOR)
different phasing of resonators
operational parameters
Q/A0.0 0.2 0.4 0.6 0.8 1.0 1.2
E/A
[MeV
]
10
100
h = 4
h = 3
h = 2
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• orbital and resonator frequency ranges incompatibleè use different harmonic modes
• harmonic mode• geometry acceleration electrode è possible values• typical h = 1 – 6, max. 10
• acceleration voltage• typical V = 50 – 100 kV; max. 1000 kV
• RF power• typical P = 10 – 100 kW; max 400 kW (excl. beamloading)
operational parameters
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sb/CAS1005613
resonator types• capacitively loaded transmission line (λ/4 or λ/2)
• dual gap acceleration electrode• TEM-mode• most common solution
courtesy Philips
λ/4 coaxial transmission line
180° acceleration electrode (Dee) 2 gaps per turn
shorting platefrequency adjustment/tuning
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sb/CAS1005614
shape acceleration electrode vs. harmonic• highest acceleration: particle passes symmetry axis for ϕ = π
• not all harmonic modes possiblee.g. α = 60° è no acceleration for h = 6
( ) ( )DE QV sin h 2 sin∆ = − α ϕ
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resonator types• single gap resonator
• separated sector cyclotrons • used at PSI, RCNP and RIKEN• TE110 mode
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sb/CAS1005616
resonator types• single gap resonator
• separated sector cyclotrons • used at PSI, RCNP and RIKEN SRC• TE110 mode
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sb/CAS1005617
resonator design: transmission line model• traditional approach (used until ~10 years ago)
• validation on scale models
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sb/CAS1005618
resonator design: transmission line model• sufficient accuracy feasible
• design AGOR cavities• transmission line model• model measurements• results
• ∆ frequency < 1 MHzrange 22 – 62 MHz
• ∆ loop height < 5 mmrange 100 mm
• ∆ Q-factor/power < 10 %
Q-fa
ctor
580060006200640066006800
loop
hei
ght [
mm
]
20
40
60
80
100
frequency [MHz]30 40 50 60
shor
t pos
ition
[m]
0
1
2
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sb/CAS1005619
resonator design: 3D simulations• recent trend; facilitated by computer and ICT revolution
• advantages• calculation of more complex resonator shapes• coupling with CAD-packages: input detailed geometry • detailed insight in current and voltage distribution
è better optimization of• cooling• peak fields (breakdown probability)
• detailed maps RF-field for trajectory calculations• higher accuracy resonance parameters• coupling with thermal and mechanical simulations (deformation)• better insight in higher order modes
• disadvantages• less insight in critical parameters• initial stages design significantly slower• large computing power required
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sb/CAS1005620
resonator design: 3D simulations• optimization electric fields AGOR central region
• reduce breakdown frequency
courtesy Varian PT
18 MV/m
0
inflector housing
acceleration electrode 100 kV
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sb/CAS1005621
resonator design: 3D simulations• 75 MHz resonator for 400 MeV/nucleon 12C cyclotron IBA
• 4 parallel transmission line cavities• optimized voltage distribution• suppression higher order modes along Dee• mechanical stiffness
courtesy IBA, JINR
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resonator design: 3D simulations• 75 MHz resonator for 400 MeV/nucleon 12C cyclotron IBA
courtesy IBA, JINR
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sb/CAS1005623
frequency tuning transmission line resonator
• resonance condition ZD = -ZL
• transmission line resonators• length transmission line
è mobile short• characteristic impedance transmission line
è mobile panel, plunger• capacitance acceleration electrode
è mobile panel• combination of techniques for coarse and fine tuning
DDZ
C1−
=ω
LL 0
cZ tgZ ω
= l
CD
Z0, lL
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frequency tuning: VARIAN PT cyclotron• frequency adjustment and tuning with sliding shorts
• move both to retain symmetry• move under power
è high performance contacts• silver plated CuBe spring• carbon-silver contact grain• 50 A per contact at 60 MHz• development GANIL/AGOR
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frequency tuning: GANIL injector cyclotron• change characteristic impedance transmission line
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sb/CAS1005626
frequency tuning: RIKEN ring cyclotron• change of characteristic impedance at different location
• no high current density contacts on stem• box to median plane: more capitance è lower frequency• box to outside: less inductance è higher frequency
• resonator characteristics• 18 – 45 MHz• 300 kV @ 45 MHz• 150 kW @ 45 MHz
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sb/CAS1005627
frequency tuning: GANIL main cyclotron
• change capacitance acceleration electrode
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sb/CAS1005628
frequency tuning: GANIL main cyclotron
• change capacitance acceleration electrode
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sb/CAS1005629
frequency tuning: single gap resonator• basically two options
• gap capacitance• chamber inductance
beam
L
C
RIKEN SRCflapping panel
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sb/CAS1005630
frequency tuning: single gap resonator• basically two options
• gap capacitance• chamber inductance
PSI ring cyclotron
beam
L
C
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sb/CAS1005631
frequency tuning: single gap resonator• basically two options
• gap capacitance• chamber inductance
beam
L
C
RCNP ring cyclotron
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power coupling: capacitive• simple mechanics
• also applicable for tuning control
• high voltage• insulator• discharge
matching
LNS, Catania
Dee
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sb/CAS1005633
power coupling: inductive• low voltage è insulator no problem
• multipactor
• variable frequency resonator: complex mechanics
• high current rotating/sliding contactRF power coax
coaxial transmission line resonator
matching
tuning
r = 210
AGOR, Groningen
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RF controls• controlled parameters
• amplitude acceleration voltage• phase acceleration phase
• required when using several independent resonators
• resonator tuning• high intensity: possibly matching (beam loading)
• measured parameters• amplitude acceleration voltage• phase acceleration voltage• phase incident wave – acceleration voltage• reflected power
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RF controls: design issues• pick-up probes
• mechanical stability
• pick-up electronics• large amplitude and frequency range
• error signal processing• high gain for phase and amplitude stability• compensation resonator response
• grounds loop via RF circuitry
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RF controls: overview
courtesy Peter Sigg, PSI
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RF controls: amplitude
courtesy Peter Sigg, PSI
• power pulse at start-up to pass through multipactor region
• amplitude stability <10-4
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RF controls: phase
courtesy Peter Sigg, PSI
• essential for multi-resonator system
• phase stability <0.1°
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RF controls: tuning
courtesy Peter Sigg, PSI
• bandwidth typ. 1 Hz
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flattopping with higher harmonic• cyclotron: no phase stability (always on transition)
• ∆ϕ translates into ∆E è radial bunch broadening, overlapping turns• increased by fieldimperfections: acceleration on slope
• add odd higher harmonic of RF voltageè reduced energyspreadè compensate longitudinal space charge force
• flat topping resonator extracts power from beamè complex voltage and phase control @ high beam intensity
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flattopping with higher harmonic
RF phase [deg]-200 -150 -100 -50 0 50 100 150 200
radi
us [a
.u]
-1.5
-1.0
-0.5
0.0
0.5
1.0
1.5
fundamentalfundamental +third harmonic
• accommodate larger bunchwidth and isochronism deviations
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sb/CAS1005642
flattopping with higher harmonic• accommodate larger bunchwidth and isochronism deviations
• compensate longitudinal phase space force• phase and amplitude intensity dependent
RF phase [deg]-200 -150 -100 -50 0 50 100 150 200
radi
us [a
.u]
-1.5
-1.0
-0.5
0.0
0.5
1.0
1.5
fundamentalfundamental +third harmonic
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flattopping with higher harmonics • PSI, RIKEN, RCNP: separate higher harmonic resonator
main cavities 50 MHz
flat top resonator 150 MHz
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flattopping with higher harmonic• JAERI AVF cyclotron: higher harmonic superimposed
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some examples: TRIUMF• beam 200 µA 520 MeV H-
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sb/CAS1005646
some examples: TRIUMF• beam 200 µA 520 MeV H-
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sb/CAS1005647
some examples: TRIUMF• 80 23 MHz λ/4 resonators
• 2 x 20 above median plane• 2 x 20 below median plane
• excitation scheme• above – below inductive coupling; 0-mode• adjacent capacitive coupling; 0-mode• left – right capacitive coupling; π-mode
• inductive coupling; RF power 1.2 MW
• tuning by resonator deformation
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some examples: TRIUMF
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some examples: TRIUMF• electric field distribution in accelerating gap
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some examples: LNS SC cyclotron• three 15 – 48 MHz λ/2 resonators
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sb/CAS1005651
some examples: LNS SC cyclotron• three 15 – 48 MHz λ/2 resonators
• vacuum feedthroughissue: E || B
2.9
m
9 m
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some examples: LNS SC cyclotron• inter-resonator coupling in center
• not operating in Eigenmode • power transfer between resonators è perturbation
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some examples: LNS SC cyclotron• inter-resonator coupling in center
• not operating in normal mode (h = 3)• power transfer between resonators è perturbation
• some numbers• reactive power resonator PR = 100 MW• electrode voltage VD = 100 kV• operating frequency ν = 40 MHz• reactive power coupling 1.75 V2ωCc
4.4 MW/pFè minimize coupling capacitance
achievable value Cc ≤ 10-3 pF
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some examples: LNS SC cyclotron• inter-resonator coupling in center
• not operating in normal mode (h = 3)• power transfer between resonators è perturbationè minimize coupling capacitance
achievable value Cc ≤ 10-3 pF
frequency [MHz]36.90 36.95 37.00 37.05 37.10
ampl
itude
[dBc
]
-110
-100
-90
-80
-70
response resonator 3resonator 1 excitedCc = 1.1x10-4 pF
measurements AGOR
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some examples: VARIAN PT cyclotron• 250 MeV protons
• 4 coupled λ/2 resonators; 1 amplifier
capacitive and inductive couplingbetween resonators
courtesy Varian PT
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some examples: VARIAN PT cyclotron• 250 MeV protons
• 4 coupled λ/2 resonators driven via one power coupler• 4 Eigenmodes; only three can be excited• push-pull mode
ϕ = π
ϕ = π
ϕ = 0
ϕ = 0
courtesy Varian PT
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some examples: VARIAN PT cyclotron• 250 MeV protons
• 4 coupled λ/2 resonators driven via one power coupler• 4 Eigenmodes; only three can be excited• push-pull mode
• complex tuning control• control parameters: 4 positions sliding short • error signals
• phase drive power – resonator 1• 3 voltage ratios resonator 1 – resonator 2; 3 and 4
• 4 x 4 transfer matrix not diagonalè no independent servo loops
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example: PET isotope production cyclotron• 2 MHz λ/4 resonators; π-mode for protons, 0-mode for
deuterons
courtesy GE
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conclusions• wide range of applications
• isotope production• nuclear physics; radioactive beam production• meson factory; spallation neutron source
• wide range of beams and energies• protons up to uranium• 1.5 MeV/nucleon – 590 MeV/nucleon
• large dynamic range in intensity and beam power• <1 nA – 5 mA• <1 W – 1.3 MW
• compact cyclotrons, separated sector cyclotrons
• extraction radius 0.2 – 8 m
è large variety of RF systems
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acknowledgement• Claude Bieth, GANIL
for introducing me in the RF wonderland
• Yuri Bylinski, TRIUMFAntonio Caruso, LNSMarco di Giacomo, GANILPeter Sigg, PSIJohn Vincent, NSCLIBAVARIAN PTfor providing a lot of information