ion injector design andrew seltzman. iec fusion neutron source construction in progress: will fuse...
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![Page 1: Ion Injector Design Andrew Seltzman. IEC Fusion Neutron Source Construction in progress: Will fuse deuterium for 2.45MeV fast neutron production Requires](https://reader035.vdocuments.mx/reader035/viewer/2022062308/56649ce65503460f949b3a82/html5/thumbnails/1.jpg)
Ion Injector DesignIon Injector Design
Andrew Seltzman
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IEC Fusion Neutron IEC Fusion Neutron SourceSource
Construction in progress:
•Will fuse deuterium for 2.45MeV fast neutron production
•Requires 4 ion injectors positioned around reactor core for deuterium beam injection.
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ION Injector TypesION Injector Types
Filament (Thermionic emission)Filament (Thermionic emission) RF IonizationRF Ionization
ICP / Ohmic HeatingICP / Ohmic Heating ECRF / ICRFECRF / ICRF
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Filament IonizationFilament Ionization
•Benefits
•Simplicity
•Size
•Low Cost
•Limitations
•Filament life
•Filament Sputtering
•Filament EvaporationHirsch Meeks ion injector
•Maximum beam current of 10mA at 12keV
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RF Ionization: ICPRF Ionization: ICP
University of Tokyo ICP ion source
Inductive coupling to plasma
Eddy currents resistively heat plasma
Resistance decreases with increasing temperature
•Upper limit on ICP plasma temperature
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RF Ionization ECRRF Ionization ECR
Institut für Atom- und Molekülphysik ECR ion source
•RF excitation of electrons/ions at their fundamental gyro frequency
•X-mode resonance for CP or LP wave
Electron cyclotron resonance heating of a plasma: more efficient then ICP
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Injector Design OverviewInjector Design Overview RF ionizationRF ionization
Resonant RF coilResonant RF coil Minimum B trapping Minimum B trapping
External magnet External magnet yokeyoke
Electrostatic Electrostatic ExtractionExtraction Extractor coneExtractor cone DC biased RF coilDC biased RF coil
Expected Expected performance:performance: 5-20mA @ 15keV5-20mA @ 15keV
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RF Coil DesignRF Coil DesignModeled in NEC2
ECRF / ICP Frequency: 900MHz (33cm wavelength)
Coil Dimensions:
•5.5 turns
•1cm Diameter
•0.9cm height
Coil Impedance: 41.2+j166 Ohms @ 900MHz
Pi low pass matching networkMolybdenum RF coil:
•Lower sputtering coefficient (As compared to stainless steel)
•Higher conductivity
•Higher melting temperature
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RF Coil FieldsRF Coil FieldsEy,Ex RF Field:
Perpendicular to B
Excites ECRF Resonance
Ez RF Field:
Parallel to B
Useless
•Field tangential to B is greatest at coil center
Electron Gyro radii:
2.3mm for 1keV electron in 0.03T
•For electron gyro radii much smaller then coil diameter, electron sees well behaved linear field
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Simple Mirror EquationSimple Mirror EquationConservation of energy
Conservation of angular momentum
Mirror Equation
Confinement time
Bmax, Bmin to be measured at surface of ionization cup
Boundary velocity
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Magnetic YokeMagnetic Yoke
6 Cylindrical grade N48 rare earth magnets
•Centers positioned 27mm from injector axis
•25.4mm length 12.7mm diameter
Provides Magnetic trapping of heated electrons
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Magnetic Field VectorsMagnetic Field Vectors
Axially symmetric near center
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Magnetic Field Magnetic Field MagnitudesMagnitudes
-500
0
500
1000
1500
2000
2500
0 10 20 30 40 50
Distance from flange face mm
Fr
-0.01
0
0.01
0.02
0.03
0.04
0.05
0.06
0.07
0.08
0.09
B(T
)
Z-field magnitude measured on axis
•Field will be reduced to bring 900MHZ ECRF resonance to center of RF coil
•Mu-metal shielding
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Extractor FieldExtractor Field•Ionization Cup prevents current flow from biased antenna coil to sidewalls or rear of injector.
•Antenna coil bias: 0-15kV
•Extractor cone concentrates electric field on axis and assists in ion focusing.
•Extractor cone fabricated from 304L SS
•¼”height 7/8” base diameter
•0.1” aperture
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Extractor FieldExtractor Field
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External ComponentsExternal Components
Bidirectional couplers / active detectors
Main ECRF Amplifier 240W @900MHz
Oscillator and mixer
Preamp
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Injector TestingInjector Testing•Paschen discharge from biased standoffs
•High voltage feedthrough open air breakdown
•ICP excitation at 150MHz
Ion Injector Test bed
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Paschen discharge
Discharge occurred at 8kV @ 30mTorr
Injector test bed was evacuated with a rotary vain vacuum pump.
Injector was connected to Hitek 3000 power supply: 0-35kV @ 75mA
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High voltage breakdownHigh voltage breakdown
•High voltage feedthrough breaks down at 17kV
•Final design will be de rated to 15kV and feedthroughs will be potted in silicone.
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ICP ExcitationICP Excitation
•Components
•FT-50R transceiver
•150MHZ 45W RF Amplifier
•-40dB bidirectional coupler
•Celwave active detector 1/40 (V/W)
•Matching network modified for 150MHz operation.
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ICP ExcitationICP ExcitationSuccessful ICP excitation at 150MHZ
•20W drive
•5W reflected (PI match designed for 900MHZ)
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Future ModificationsFuture Modifications
•Switch PI low pass matching network for Pi high pass network for better protection of RF amplifier.
•Modification of magnetic field configuration for ECRF resonance at 900MHz.
•Assembly of new 4.5W RF driver boards to feed main ECRF amplifier.
•Testing of extractor cone design.
•Measurement of deuterium beam current.
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QuestionsQuestions??
?