ndcx-ii project joe kwan project manager sept. 7, 2009 san francisco
DESCRIPTION
NDCX-II Project Joe Kwan Project Manager Sept. 7, 2009 San Francisco US-Japan Workshop on Heavy Ion Fusion and High Energy Density Physics. Outline. Scientific Motivation for NDCX-II NDCX-II Physics Design Accelerator System: —Physics —Mechanical —Electrical Project Management - PowerPoint PPT PresentationTRANSCRIPT
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NDCX-II Project
Joe KwanProject Manager
Sept. 7, 2009San Francisco
US-Japan Workshop onHeavy Ion Fusion and
High Energy Density Physics
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Outline
• Scientific Motivation for NDCX-II • NDCX-II Physics Design• Accelerator System:
—Physics
—Mechanical
—Electrical• Project Management• Summary
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LITHIUM ION BEAM BUNCH
Final Beam Energy: > 3 MeVFinal Spot diameter : ~ 1 mmFinal bunch length : ~ 1 cm or ~ 1 nsTotal Charge Delivered: > 20 nC
Exiting beam availablefor dE/dx measurement
m foil orfoam TARGET
30 J/cm2 isochoric heating will raise aluminum temperature to ~ 1 eV
NDCX-II is ideally suited for heating foils to WDM regime
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Technical Approaches
• Use an induction accelerator to compress beam pulse quickly down to ~ 1 ns
• Neutralized drift compression and final focus of an intense beam to a small spot
• Reuse the ATA induction cells and utilize an existing building to save cost and construction time
• Design a flexible machine to enable future HIF driver development
• Use the lighter Li ions to optimize the performance of NDCX-II (as limited by cost and schedule)
• Consider solenoids, electric quads and magnetic quads beam focusing and chose the one that is most effective
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NDCX-II generates short pulses needed for isochoric heating
Ion source~ 500ns
Target foilaccel-decelinjector provides pre-bunching
Induction Linacprovides custom waveforms for rapid beam compression
Neutralized drift compression and final focus
Key design parameters: • ~100 mA Li+ Ion source at > 1 mA/cm2.• Induction cell voltage average gradient 0.25 MV/m
(peak 0.75 MV/m).• Build new 2T solenoids for beam transport.• Use existing 8T solenoid for final focus.
> 3 MV, 20 nC
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The induction linac is ideal for compressinghigh-current short-pulse beams
• An induction linac works like a series of transformers using the beam as a “single-turn” secondary.
• Volt-seconds in the core material limits the pulse length.
• Applied voltage waveforms determine the acceleration schedule.
Advanced Test Accelerator (ATA) DARHT-IIDARHT-II
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The NDCX-II baseline physics design effectively combines acceleration and compression
• Run 1-D Particle-in-cell (PIC) code with a few hundred particles for design synthesis:– Models gaps as extended fringing field.– Self-field model guided by results from Warp runs.– Can use realistic acceleration waveforms.– Also include centroid tracking for study of misalignment effects.
• Run comprehensive PIC code “Warp” for detailed design:– 3-D and axisymmetric (r,z) models.– Electrostatic space charge and accelerating gap fields included.– Time-dependent space-charge-limited emission.– Extensively benchmarked against experiments and analytic
cases. See A. Friedman’s paper in this conference
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NDCX-II beam experiments are relevant to HIF drivers
• HIF driver-like compression of non-neutral and neutralized beams.
• Explore limits on velocity tilt.
• Employs space charge to remove velocity tilt.
• Longitudinal beam control.
• Chromatic aberration in final focus.
• Possible to add a quadrupole transport section at the end.
• Beam diagnostic development.
Center of mass z position
Pul
se le
ngth
(m
)
Beam Compression in NDCX-II
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Use the Warp code to simulate the NDCX-II beam in (r,z)
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Warp-3D to Simulation for NDCX-II
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Evolution of the phase space and the line charge density
(C/m)
Ek
(MeV)
entering linac mid-compression peakcompression
z (m)
expanding exiting at focus
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A simple passive circuit can generate a wide variety of waveforms
Waveforms needed for NDCX-II
charged line
induction cell & accelerating gap impedance
ATA “compensation box”
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NDCX-II will coexist with NDCX-I in LBNL’s Building 58 high bay
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NDCX-II Conceptual Design Layout
Induction cells
final focus and target chamber
water-filled Blumleins
neutralized drift compression region with plasma sources
100mA, 500ns Li+ ion injector
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Schematic of the Induction Cell
OIL
VACUUM
HV FEEDINSULATOR
BEAM
1.5 – 3 T PULSED SOLENOID (ATA used a lower field dc one)
FERRITE TORROID(70 ns, 250 kV)
11.0”
5.5”
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NDCX-II ion source and target are similar to NDCX-I
• Text goes here
102 kV pulsed source
68 kV DCextraction electrode
-170 kV DCaccel electrode
NDCX-I NDCX-IIIon mass K (A=39) Li (A=7)Ion energy 350 keV > 3 MeVFocal spot diameter ~ 2 mm 1 mmPulse duration 2 – 4 ns 1 nsPeak current ~ 2 A ~ 30 A
Injector
Targetchamber
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NDCX-II Beam Neutralization is Based on NDCX-I Neutralization Experience
04/22/23 1
Ferroelectric Plasma Source
Cathodic-ArcPlasma Source
Developed by PPPL
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NDCX-II will modify and change configuration of ATA hardware
• Pulsed 3T solenoid instead of 5kG DC solenoid– Effect of the solenoid return flux on the available core
volt-seconds is being studied on the test stand
• Mismatched load for Blumlein to generate compression waveforms
• Derating the Blumlein output voltage from 250kV to 200kV – Higher safety margin on insulators to protect from
possible high amplitude reflections which are a result of impedance mismatching
– Offsets the potential partial saturation of ferrite from solenoid return flux
• DC charging of the switch chassis instead of the CRC system– Simpler and adequate for the much lower repetition rate
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NDCX-II will modify and change configuration of ATA hardware
• Separate trigger system for each Blumlein instead of distributed Blumlein pulse for triggering many Blumleins– Beam transit time is too long for cable delays– System jitter using a commercial 100kV trigger generator is
being studied on the test stand
• One transmission line between Blumlein and cell– Obvious mismatch, but load is not matched either– Step-up for nominal flat pulse– Simpler installation– Feed cell from alternating sides to cancel minor dipole effect
• X and Y corrector for each solenoid– Effect of the saturating ferrite during the reset and main pulse
on dipole strength is being studied on the test stand
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NDCX-II Electrical Systems
• Injector high voltage pulsers (2) and power supply (1) for beam extraction
• Pulsed power systems (34) to produce the acceleration and compression waveforms at the induction cells– 10 spark gap switched lumped element or transmission line pulsers– 24 ATA Blumleins with shaping elements at cells
• High current pulsers (40) for the transport solenoids in the induction cells and intercells
• Correction dipole pulsers (2 per solenoid)
• Plasma source pulsers
• Control system – 200 power supplies• Timing and trigger system – 200 triggers• Data acquisition system – 300 diagnostics• Interlock system – 100 status monitors
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Technical Risk Areas were Identified
• Ion source—Li+ current density of 1 mA/cm2 has been demonstrated and has a matched beam solution.
• The injector still needs to be designed to handle the heat problem.
• Custom voltage waveforms for ion acceleration—sensitivity study and test data are underway.
• Solenoid magnet alignment—use state of the art mechanical alignment technique, and provide beam steering correction using dipole coils.
• Shielding of the ferrite core and beam diagnostics from the pulsed solenoid field.
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The NDCX-II Test Stand is operational and testing the performance of various hardware components
Thyratron switch chassis
Blumlein
Spark Gap
CellCharging supplies and trigger generators
Charging transformer
Oil-filled transmission line
Shaping network
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Overall Schedule
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Critical Path Analysis
Slide 24
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NDCX-II Project Team
Slide 25
DOE OFESDave Goodwin
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Conclusions
• NDCX-II will be a unique ion-driven user facility for warm dense matter and IFE target physics studies.
• The machine will also allow beam dynamic experiments to study high-current drivers.
• The baseline physics design makes optimal use of the ATA accelerator components through rapid beam compression and acceleration.
• The project is $11M. It runs from July 2009 to March 2012.
• NDCX-II is a prerequisite for the Integrated Beam–High Energy Density Physics Experiment in the 2007 DOE Office of Science Strategic Plan.
• With NIF starting operation, now is the time to ramp up effort toward inertial fusion & fusion/fission hybrids.