wakefield acceleration in dielectric structures€¦ · reinvent resonant structure using...
TRANSCRIPT
![Page 1: Wakefield Acceleration in Dielectric Structures€¦ · Reinvent resonant structure using dielectric(E163, UCLA) ... Advanced accelerators for high energy frontier Very promising](https://reader034.vdocument.in/reader034/viewer/2022042415/5f3065be4b2e9b00541daf68/html5/thumbnails/1.jpg)
Wakefield Acceleration inDielectric Structures
Wakefield Acceleration inDielectric Structures
J.B. RosenzweigUCLA Dept. of Physics and Astronomy
ICFA Workshop on Novel Concepts forLinear Accelerators and Colliders
SLAC, July 8, 2009
J.B. RosenzweigUCLA Dept. of Physics and Astronomy
ICFA Workshop on Novel Concepts forLinear Accelerators and Colliders
SLAC, July 8, 2009
![Page 2: Wakefield Acceleration in Dielectric Structures€¦ · Reinvent resonant structure using dielectric(E163, UCLA) ... Advanced accelerators for high energy frontier Very promising](https://reader034.vdocument.in/reader034/viewer/2022042415/5f3065be4b2e9b00541daf68/html5/thumbnails/2.jpg)
Future colliders:ultra-high fields in the accelerator
Future colliders:ultra-high fields in the accelerator
High fields in violentaccelerating systems
High field implies shortRelativistic oscillations…Limit peak powerStored energy
ChallengesUltra-small beamsStructure breakdownPulsed heatingWhat sources < 1 cm?
High fields in violentaccelerating systems
High field implies shortRelativistic oscillations…Limit peak powerStored energy
ChallengesUltra-small beamsStructure breakdownPulsed heatingWhat sources < 1 cm?
eEz /mc ~ 1
![Page 3: Wakefield Acceleration in Dielectric Structures€¦ · Reinvent resonant structure using dielectric(E163, UCLA) ... Advanced accelerators for high energy frontier Very promising](https://reader034.vdocument.in/reader034/viewer/2022042415/5f3065be4b2e9b00541daf68/html5/thumbnails/3.jpg)
Scaling the accelerator in sizeScaling the accelerator in size
Lasers produce copious power (~J, >TW)Scale in size by 4 orders of magnitude
< 1 m gives challenges in beam dynamicsReinvent resonant structure using dielectric (E163, UCLA)
To jump to GV/m, only need mm-THzMust have new source…
Lasers produce copious power (~J, >TW)Scale in size by 4 orders of magnitude
< 1 m gives challenges in beam dynamicsReinvent resonant structure using dielectric (E163, UCLA)
To jump to GV/m, only need mm-THzMust have new source…
Resonant dielectric laser-excitedstructure (HFSS simulation, UCLA)
![Page 4: Wakefield Acceleration in Dielectric Structures€¦ · Reinvent resonant structure using dielectric(E163, UCLA) ... Advanced accelerators for high energy frontier Very promising](https://reader034.vdocument.in/reader034/viewer/2022042415/5f3065be4b2e9b00541daf68/html5/thumbnails/4.jpg)
Promising paradigm for high fieldaccelerators: wakefields
Promising paradigm for high fieldaccelerators: wakefields
Coherent radiation from bunched, v~c, e- beamAny impedance environmentPowers more exotic schemes: plasma, dielectrics
Non-resonant, short pulse operation possibleIntense beams needed by other fields
X-ray FELX-rays from Compton scatteringTHz sources
Coherent radiation from bunched, v~c, e- beamAny impedance environmentPowers more exotic schemes: plasma, dielectrics
Non-resonant, short pulse operation possibleIntense beams needed by other fields
X-ray FELX-rays from Compton scatteringTHz sources
![Page 5: Wakefield Acceleration in Dielectric Structures€¦ · Reinvent resonant structure using dielectric(E163, UCLA) ... Advanced accelerators for high energy frontier Very promising](https://reader034.vdocument.in/reader034/viewer/2022042415/5f3065be4b2e9b00541daf68/html5/thumbnails/5.jpg)
High gradients, high frequency, EM powerfrom wakefields: CLIC @ CERN
High gradients, high frequency, EM powerfrom wakefields: CLIC @ CERN
CLIC wakefield-powered resonant scheme
CLIC 30 GHz,150 MV/m structures
CLIC drive beamextraction structure
Power
J. Rosenzweig, et al., Nucl. Instrum.Methods A 410 532 (1998).(concept borrowed from W. Gai…)
![Page 6: Wakefield Acceleration in Dielectric Structures€¦ · Reinvent resonant structure using dielectric(E163, UCLA) ... Advanced accelerators for high energy frontier Very promising](https://reader034.vdocument.in/reader034/viewer/2022042415/5f3065be4b2e9b00541daf68/html5/thumbnails/6.jpg)
The dielectric wakefield acceleratorThe dielectric wakefield accelerator
Higher accelerating gradients: GV/m levelDielectric based, low loss, short pulseHigher gradient than optical? Different breakdown mechanismNo charged particles in beam path…
Use wakefield collider schemesCLIC style modular systemAfterburner possibility for existing accelerators
Spin-offsHigh power THz radiation source
Higher accelerating gradients: GV/m levelDielectric based, low loss, short pulseHigher gradient than optical? Different breakdown mechanismNo charged particles in beam path…
Use wakefield collider schemesCLIC style modular systemAfterburner possibility for existing accelerators
Spin-offsHigh power THz radiation source
![Page 7: Wakefield Acceleration in Dielectric Structures€¦ · Reinvent resonant structure using dielectric(E163, UCLA) ... Advanced accelerators for high energy frontier Very promising](https://reader034.vdocument.in/reader034/viewer/2022042415/5f3065be4b2e9b00541daf68/html5/thumbnails/7.jpg)
Dielectric Wakefield AcceleratorOverview
Dielectric Wakefield AcceleratorOverview
Electron bunch ( 1) drives Cerenkovwake in cylindrical dielectric structure
Variations on structure featuresMultimode excitation
Wakefields accelerate trailing bunchMode wavelengths
n4 b a
n1
Peak decelerating field
eE z,dec4Nbremec
2
a 81 z a
Design Parameters a,b z
Ez on-axis, OOPIC
*
Extremely goodbeam needed
R Ez,acc
Ez,dec
2
Transformer ratio (unshaped beam)
![Page 8: Wakefield Acceleration in Dielectric Structures€¦ · Reinvent resonant structure using dielectric(E163, UCLA) ... Advanced accelerators for high energy frontier Very promising](https://reader034.vdocument.in/reader034/viewer/2022042415/5f3065be4b2e9b00541daf68/html5/thumbnails/8.jpg)
Experimental HistoryArgonne / BNL experimentsExperimental History
Argonne / BNL experiments
Proof-of-principle experiments(W. Gai, et al.)
ANL AATF
Mode superposition(J. Power, et al. and S. Shchelkunov, et al.)
ANL AWA, BNL
Transformer ratio improvement(J. Power, et al.)
Beam shaping
Tunable permittivity structuresFor external feeding
(A. Kanareykin, et al.)
Proof-of-principle experiments(W. Gai, et al.)
ANL AATF
Mode superposition(J. Power, et al. and S. Shchelkunov, et al.)
ANL AWA, BNL
Transformer ratio improvement(J. Power, et al.)
Beam shaping
Tunable permittivity structuresFor external feeding
(A. Kanareykin, et al.)Tunable permittivity
E vs. witness delay
Gradients limited to <50 MV/m by available beam
![Page 9: Wakefield Acceleration in Dielectric Structures€¦ · Reinvent resonant structure using dielectric(E163, UCLA) ... Advanced accelerators for high energy frontier Very promising](https://reader034.vdocument.in/reader034/viewer/2022042415/5f3065be4b2e9b00541daf68/html5/thumbnails/9.jpg)
T-481: Test-beam explorationof breakdown threshold
T-481: Test-beam explorationof breakdown threshold
Go beyond pioneering work at ANLMuch shorter pulses, small radial sizeHigher gradients…
Leverage off E167Goal: breakdown studies
Al-clad fused SiO2 fibersID 100/200 m, OD 325 m, L=1 cm
Avalanche v. tunneling ionizationBeam parameters indicate Ez 11GV/mcan be excited
3 nC, z 20 m, 28.5 GeV
48 hr FFTB run
Go beyond pioneering work at ANLMuch shorter pulses, small radial sizeHigher gradients…
Leverage off E167Goal: breakdown studies
Al-clad fused SiO2 fibersID 100/200 m, OD 325 m, L=1 cm
Avalanche v. tunneling ionizationBeam parameters indicate Ez 11GV/mcan be excited
3 nC, z 20 m, 28.5 GeV
48 hr FFTB runT-481 “octopus” chamber
![Page 10: Wakefield Acceleration in Dielectric Structures€¦ · Reinvent resonant structure using dielectric(E163, UCLA) ... Advanced accelerators for high energy frontier Very promising](https://reader034.vdocument.in/reader034/viewer/2022042415/5f3065be4b2e9b00541daf68/html5/thumbnails/10.jpg)
T481: Methods and ResultsT481: Methods and Results
Multiple tube assembliesScanning of bunch lengths forwake amplitude variationVaporization of Al cladding…dielectric more robustObserved breakdown threshold(field from simulations)
13.8 GV/m surface field5.5 GV/m deceleration fieldMulti-mode effect?
Correlations to post-morteminspection
Multiple tube assembliesScanning of bunch lengths forwake amplitude variationVaporization of Al cladding…dielectric more robustObserved breakdown threshold(field from simulations)
13.8 GV/m surface field5.5 GV/m deceleration fieldMulti-mode effect?
Correlations to post-morteminspection
![Page 11: Wakefield Acceleration in Dielectric Structures€¦ · Reinvent resonant structure using dielectric(E163, UCLA) ... Advanced accelerators for high energy frontier Very promising](https://reader034.vdocument.in/reader034/viewer/2022042415/5f3065be4b2e9b00541daf68/html5/thumbnails/11.jpg)
T481: Beam ObservationsT481: Beam Observations
View end of dielectric tube;frames sorted by increasing peak currentView end of dielectric tube;frames sorted by increasing peak current
![Page 12: Wakefield Acceleration in Dielectric Structures€¦ · Reinvent resonant structure using dielectric(E163, UCLA) ... Advanced accelerators for high energy frontier Very promising](https://reader034.vdocument.in/reader034/viewer/2022042415/5f3065be4b2e9b00541daf68/html5/thumbnails/12.jpg)
T-481: Inspection of Structure DamageT-481: Inspection of Structure Damage
ultrashortbunch
longerbunch
Aluminum vaporized from pulsed heating!
Laser transmission test
Bisected fiber
Damage consistent with beam-induced discharge
![Page 13: Wakefield Acceleration in Dielectric Structures€¦ · Reinvent resonant structure using dielectric(E163, UCLA) ... Advanced accelerators for high energy frontier Very promising](https://reader034.vdocument.in/reader034/viewer/2022042415/5f3065be4b2e9b00541daf68/html5/thumbnails/13.jpg)
OOPIC Simulation StudiesOOPIC Simulation StudiesParametric scans for designHeuristic model benchmarkingShow pulse duration in multimode excitation… hint at mechanismDetermine field levels in experiment: breakdown
Gives breakdown limit of 5.5 GV/m deceleration field
Multi-mode excitation – short, separated pulse
Example scan, comparison to heuristic model
0
5 10 9
1 10 10
1.5 10 10
40 60 80 100 120 140 160
E_dec,max (OOPIC)E_acc max (OOPIC)E_dec,theory
E z(V
/m)
a ( m)
![Page 14: Wakefield Acceleration in Dielectric Structures€¦ · Reinvent resonant structure using dielectric(E163, UCLA) ... Advanced accelerators for high energy frontier Very promising](https://reader034.vdocument.in/reader034/viewer/2022042415/5f3065be4b2e9b00541daf68/html5/thumbnails/14.jpg)
E169 CollaborationE169 Collaboration
H. Badakov , M. Berry , I. Blumenfeld , A. Cook , F.-J. Decker ,M. Hogan , R. Ischebeck , R. Iverson , A. Kanareykin , N. Kirby ,
P. Muggli , J.B. Rosenzweig , R. Siemann , M.C. Thompson ,R. Tikhoplav , G. Travish , R. Yoder , D. Walz
Department of Physics and Astronomy, University of California, Los AngelesStanford Linear Accelerator CenterUniversity of Southern California
Lawrence Livermore National LaboratoryManhattanville CollegeEuclid TechLabs, LLC
Collaboration spokespersons
H. Badakov , M. Berry , I. Blumenfeld , A. Cook , F.-J. Decker ,M. Hogan , R. Ischebeck , R. Iverson , A. Kanareykin , N. Kirby ,
P. Muggli , J.B. Rosenzweig , R. Siemann , M.C. Thompson ,R. Tikhoplav , G. Travish , R. Yoder , D. Walz
Department of Physics and Astronomy, University of California, Los AngelesStanford Linear Accelerator CenterUniversity of Southern California
Lawrence Livermore National LaboratoryManhattanville CollegeEuclid TechLabs, LLC
Collaboration spokespersons
UCLA
![Page 15: Wakefield Acceleration in Dielectric Structures€¦ · Reinvent resonant structure using dielectric(E163, UCLA) ... Advanced accelerators for high energy frontier Very promising](https://reader034.vdocument.in/reader034/viewer/2022042415/5f3065be4b2e9b00541daf68/html5/thumbnails/15.jpg)
E-169 MotivationE-169 Motivation
Take advantage of unique experimentalopportunity at SLAC
FACET: ultra-short intense beamsAdvanced accelerators for high energy frontierVery promising path: dielectric wakefields
Extend successful T-481 investigationsMulti-GV/m dielectric wakesComplete studies of transformational technique
Take advantage of unique experimentalopportunity at SLAC
FACET: ultra-short intense beamsAdvanced accelerators for high energy frontierVery promising path: dielectric wakefields
Extend successful T-481 investigationsMulti-GV/m dielectric wakesComplete studies of transformational technique
![Page 16: Wakefield Acceleration in Dielectric Structures€¦ · Reinvent resonant structure using dielectric(E163, UCLA) ... Advanced accelerators for high energy frontier Very promising](https://reader034.vdocument.in/reader034/viewer/2022042415/5f3065be4b2e9b00541daf68/html5/thumbnails/16.jpg)
E169 at FACET: overviewE169 at FACET: overview
Research GV/m acceleration scheme in DWAGoals
Explore breakdown issues in detailDetermine usable field envelopeCoherent Cerenkov radiation measurementsExplore alternate materialsExplore alternate designs and cladding
Radial and longitudinal periodicity…Varying tube dimensions
Impedance changeBreakdown dependence on wake pulse length
Approved experiment (EPAC, Jan. 2007)Awaits FACET construction
Research GV/m acceleration scheme in DWAGoals
Explore breakdown issues in detailDetermine usable field envelopeCoherent Cerenkov radiation measurementsExplore alternate materialsExplore alternate designs and cladding
Radial and longitudinal periodicity…Varying tube dimensions
Impedance changeBreakdown dependence on wake pulse length
Approved experiment (EPAC, Jan. 2007)Awaits FACET construction
Already explored atUCLA Neptune
![Page 17: Wakefield Acceleration in Dielectric Structures€¦ · Reinvent resonant structure using dielectric(E163, UCLA) ... Advanced accelerators for high energy frontier Very promising](https://reader034.vdocument.in/reader034/viewer/2022042415/5f3065be4b2e9b00541daf68/html5/thumbnails/17.jpg)
Observation of THz CoherentCerenkov Wakefields @ Neptune
Observation of THz CoherentCerenkov Wakefields @ Neptune
Chicane-compressed (200 m)0.3 nC beam
Focused with PMQ array tor~100 m (a=250 m)
Single mode operationTwo tubes, different b, THzfrequencies
Horn-launched quasi-opticaltransportAutocorrelation in Michelsoninterferometer
Chicane-compressed (200 m)0.3 nC beam
Focused with PMQ array tor~100 m (a=250 m)
Single mode operationTwo tubes, different b, THzfrequencies
Horn-launched quasi-opticaltransportAutocorrelation in Michelsoninterferometer
![Page 18: Wakefield Acceleration in Dielectric Structures€¦ · Reinvent resonant structure using dielectric(E163, UCLA) ... Advanced accelerators for high energy frontier Very promising](https://reader034.vdocument.in/reader034/viewer/2022042415/5f3065be4b2e9b00541daf68/html5/thumbnails/18.jpg)
E-169: High-gradient AccelerationGoals in 3 Phases
E-169: High-gradient AccelerationGoals in 3 Phases
Phase 1: Complete breakdown study (whendoes E169->E168!)
Coherent Cerenkov (CCR) measurement
explore (a, b, z) parameter space
Alternate cladding
Alternate materials (e.g. CVD diamond)
Explore group velocity effect
z 20 m
r< 10 m
U 25 GeV
Q 3 - 5 nC
UCeNb E z,decLd
2
Un
2nNb2remec
2z2Ld
2a b a 2 8 1 z 1 aexp n z
2 b a 1
2
Total energy gives field measure
Harmonics are sensitive z diagnostic
T Ld / c vg Ld / c 1
FACET beam parameters forE169: high gradient case
![Page 19: Wakefield Acceleration in Dielectric Structures€¦ · Reinvent resonant structure using dielectric(E163, UCLA) ... Advanced accelerators for high energy frontier Very promising](https://reader034.vdocument.in/reader034/viewer/2022042415/5f3065be4b2e9b00541daf68/html5/thumbnails/19.jpg)
Longitudinal E-fieldLongitudinal E-field
E-169 at FACET: Phase 2 & 3E-169 at FACET: Phase 2 & 3Phase 2: Observe acceleration10-33 cm tube length
longer bunch, acceleration of tail
“moderate” gradient, 1-3 GV/m
single mode operation
z50-150 m
r< 10 m
Eb25 GeV
Q 3 - 5 nCPhase 3: Scale to 1 m length
Momentum distribution after 33 cm (OOPIC)
*
Alignment, transverse wakes, BBU
Group velocity & EM exposureFACET beam parameters forE169: acceleration case
![Page 20: Wakefield Acceleration in Dielectric Structures€¦ · Reinvent resonant structure using dielectric(E163, UCLA) ... Advanced accelerators for high energy frontier Very promising](https://reader034.vdocument.in/reader034/viewer/2022042415/5f3065be4b2e9b00541daf68/html5/thumbnails/20.jpg)
Experimental Issues: AlternateDWA design, cladding, materialsExperimental Issues: Alternate
DWA design, cladding, materials
Aluminum cladding in T-481
Dielectric cladding
Bragg fiber?Low HOM
Alternate dielectric: CVD diamondUltra-high breakdown thresholdDoping gives low SECFirst structures from Euclid Tech.
Vaporized at moderate wake amplitudes
Low vaporization threshold; low pressure
and thermal conductivity of environment
Lower refractive index provides internal reflection
Low power loss, damage resistant
Bragg fiberA. Kanareykin
CVD deposited diamond
![Page 21: Wakefield Acceleration in Dielectric Structures€¦ · Reinvent resonant structure using dielectric(E163, UCLA) ... Advanced accelerators for high energy frontier Very promising](https://reader034.vdocument.in/reader034/viewer/2022042415/5f3065be4b2e9b00541daf68/html5/thumbnails/21.jpg)
Control of group velocity withperiodic structure
Control of group velocity withperiodic structure
For multiple pulse beamloaded operation in LC,may need low vg
Use periodic DWAstructure in ~ -modeExample: simple SiO2-diamond structure
For multiple pulse beamloaded operation in LC,may need low vg
Use periodic DWAstructure in ~ -modeExample: simple SiO2-diamond structure
Accelerating beam Driving beam
![Page 22: Wakefield Acceleration in Dielectric Structures€¦ · Reinvent resonant structure using dielectric(E163, UCLA) ... Advanced accelerators for high energy frontier Very promising](https://reader034.vdocument.in/reader034/viewer/2022042415/5f3065be4b2e9b00541daf68/html5/thumbnails/22.jpg)
Alternate geometry: slabAlternate geometry: slab
Slab geometry suppressestransverse wakes*
Also connects to optical case
Price: reduced wakefieldInteresting tests at FACET
Slab example, >600 MV/m
Slab geometry suppressestransverse wakes*
Also connects to optical case
Price: reduced wakefieldInteresting tests at FACET
Slab example, >600 MV/m
*A. Tremaine, J. Rosenzweig, P. Schoessow,Phys. Rev. E 56, 7204 (1997)
![Page 23: Wakefield Acceleration in Dielectric Structures€¦ · Reinvent resonant structure using dielectric(E163, UCLA) ... Advanced accelerators for high energy frontier Very promising](https://reader034.vdocument.in/reader034/viewer/2022042415/5f3065be4b2e9b00541daf68/html5/thumbnails/23.jpg)
Towards a linear collider…Towards a linear collider…
What have we learned?One might use gradients of 2-3 GV/m
Near to plasma w/o attendant challenges
Frequencies of interest are ~ few THz (?)Need nC level drive bunch, <50 m rms
What do we need to learn?Usable gradients, materials, agingStructure design features (e.g. slab, vg control)Transverse wakes, beam loadingFull system considerations
What have we learned?One might use gradients of 2-3 GV/m
Near to plasma w/o attendant challenges
Frequencies of interest are ~ few THz (?)Need nC level drive bunch, <50 m rms
What do we need to learn?Usable gradients, materials, agingStructure design features (e.g. slab, vg control)Transverse wakes, beam loadingFull system considerations
![Page 24: Wakefield Acceleration in Dielectric Structures€¦ · Reinvent resonant structure using dielectric(E163, UCLA) ... Advanced accelerators for high energy frontier Very promising](https://reader034.vdocument.in/reader034/viewer/2022042415/5f3065be4b2e9b00541daf68/html5/thumbnails/24.jpg)
Parameter list: a departure pointParameter list: a departure point
Calculator from E. ColbyCalculator from E. Colby
Based on multibunch trainsOther optimizations possible (slab structures)
ILC Nominal DWA LC
E_cms GeV 1000 1000
Bunch Charge e 2.0E+10 5.0E+08
# bunches/train # 2820 200
train repetition rate kHz 5.0E-02 2.4
final bunch length psec 1.00 0.08
design wavelength micron 230609.58 300.00
Normalized emittances micron 10/0.04 2e-02/6e-04
I. P. Spot Size nm 554/3.5 25/0.5
Enh. Luminosity /cm^2/s 4.34E+34 1.14E+35Beam Power MW 22.6 19.2
Wall-Plug Power MW 104.0 76.9
Gradient MeV/m 30 2500Total Linac Length km 33.3 0.4
![Page 25: Wakefield Acceleration in Dielectric Structures€¦ · Reinvent resonant structure using dielectric(E163, UCLA) ... Advanced accelerators for high energy frontier Very promising](https://reader034.vdocument.in/reader034/viewer/2022042415/5f3065be4b2e9b00541daf68/html5/thumbnails/25.jpg)
ConclusionsConclusions
Very promising technical approach in DWAPhysics surprisingly forgiving thus farLooks like an accelerator!
FACET should provide critical test-bedLinear collider system presents newchallenges
Unique problems of short , wakefieldsDevelop straw man now!
Very promising technical approach in DWAPhysics surprisingly forgiving thus farLooks like an accelerator!
FACET should provide critical test-bedLinear collider system presents newchallenges
Unique problems of short , wakefieldsDevelop straw man now!