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 Cryogenic
Target Implosions
In a September OMEGA experiment, the fusion neutron yield from a D2-filled,
high-adiabat cryogenic target implosion was near 100% of the 1-D LILAC hydrodynamic
code prediction. The time-integrated x-ray images shown here were used
to assess the implosion symmetry and placement precision of the cryogenic
targets.
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 ICF
Ablator Burnthrough Data
The first ICF ablator burnthrough data in halfraums were obtained in
joint SNL/LANL/LLNL/LLE experiments this year. The achievement of indirect-drive
ignition of a NIF capsule requires precise capsule shock timing and prediction
of ablator burn-through timing to within a few percent. These experiments
are the first attempts to time resolve the coalescence of two shocks
(at pressures of ~10 and 60 Mbar, respectively) in Be+0.9% Cu wedge ablator
samples (supplied by the Target Fabrication Group at LANL). DOE Progress
Report, February 2002
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 2-D
Performance of a Low-Adiabat Cryogenic Implosion
A new low-adiabat drive pulse (α ~ 4) has been developed specifically
for the 5-μm-CH, 100-μm-thick cryogenic D2 capsules
routinely imploded on OMEGA. The shell stability with this pulse is considerably
improved compared to the nominal α ~ 3 design that is, in turn,
scaled from the baseline direct-drive-ignition pulse shape for the NIF.
Therefore, these implosions are less sensitive to the current levels
of laser system nonuniformity on OMEGA. Above is a shadowgraph of the
target used on shot 28969, the first experiment with this new configuration. DOE
Progress Report, November 2002
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 2ω/Green
Beam Activation on OMEGA
A 2ω probe laser was activated on OMEGA to characterize underdense
plasmas and to investigate 2ω laser-plasma interactions. This project
is a collaboration between LLNL's target physicists and engineers and
LLE's target and laser scientists and engineers. The project redirects
the 2ω laser light of an existing beam to a specified port using
a kinematic mirror. Beam pointing, focusing, energy diagnostics, and
a dedicated 2ω distributed phase plate have been successfully activated.
The first target physics experiments using the new probe have provided
high-quality data for backscattering in laser-scale-length plasmas. DOE
Progress Report, July 2002
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 Planar
Cryogenic Target Positioner on OMEGA
A new planar cryogenic target positioner has been deployed on OMEGA to
measure the properties of condensed gasses at cryogenic temperatures.
It uses a closed-loop cooling system that is fully compatible with the
infrastructure developed for spherical cryogenic targets. This photograph
was taken the instant a shot occurred utilizing this new system. "Around
the Laboratory," November 2002 |
 Simulated
Backlit OMEGA Cryogenic Implosion
Work in support of future experiments employing OMEGA EP ( Extended Performance)
investigated the use of soft (2.0-keV) x-ray backlighting to capture
areal density images of stagnated OMEGA cryogenic implosions. The image
shown to the right was generated with the SPECT3D software analyzing
a 2-D DRACO radiation hydrodynamic simulation of a perturbed OMEGA
cryogenic implosion. |
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 New
OMEGA Diode-Pumped Regenerative Amplifier
A new highly stable, diode-pumped Nd:YLF regenerative amplifier (ODR)
was installed in the OMEGA SSD driver line. This amplifier produces shaped
optical pulses of up to 7-ns duration at an energy level of ~ 1 mJ with
an output energy fluctuation of only ~0.9% rms. The ODR output is designed
to drive the OMEGA power amplifiers and routinely demonstrates high beam
roundness with an ellipticity of <1%; this is an important characteristic
to ensure optimum OMEGA beamline performance. Improved temporal-pulse-shape
stability, beam quality, reliability, and compactness are the principal
advantages of the ODR in comparison to previous designs. The image above
shows an overview of the major components. DOE Progress Report, October
2002
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|
 Determination
of Imploded Core Temperature and Density Gradients
A team lead by Roberto Mancini of the University of Nevada, Reno and
Jeffrey Koch of LLNL is conducting NLUF experiments to spectroscopically
determine 1-D temperature and density gradients in the cores of indirect-drive
capsules imploded on OMEGA. The method is based on a novel self-consistent
analysis for data from simultaneous x-ray line spectra and x-ray monochromatic
images. An array of implosion core images recorded with the MMI-2 diagnostic
in OMEGA shot 26787 is shown above. DOE Progress Report, August 2002
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 High-Performance,
Direct-Drive Target Designs
Continuing development for the "wetted-foam" direct-drive target
design has resulted in a substantial increase in target gain and an extension
of the designs to the higher laser energies that might be of interest
for fusion energy production. This plot demonstrates calculated target
gain (thermonuclear energy out/laser energy on target) as a function
of the laser energy in MJ for several wetted-foam direct-drive capsule
designs with different implosion velocities compared to the baseline "all-DT" NIF
direct-drive capsule design. The colored lines are the results of a simple
scaling model while the solid symbols represent full 1-D hydrocode simulations. DOE
Progress Report, June 2002. |
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 Optical
Parametric Chirped-Pulse Amplification (OPCPA)
A key element of future ultrahigh-intensity lasers is a stable, high-efficiency
laser source capable of generating broad-bandwidth pulses that can be
amplified by a high-power amplifier system. Optical parametric chirped-pulse
amplification (OPCPA) is a novel laser concept that is well-suited for
this application. LLE demonstrated one of the higher-efficiency OPCPA
systems. The OPCPA concept is based in part on an LLE-invented concept:
chirped-pulse amplification (CPA). The CPA idea created a revolution
in laser technology by enabling the development of ultrahigh-intensity
lasers. DOE Progress Report, September 2002
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 Deformable
Mirrors
The assembly of deformable mirrors at LLE is a joint project
with LLNL. The assembly technology was transferred from LLNL to
LLE, who is currently producing mirrors to be used on the NIF. LLE's
Optical Manufacturing Group has optimized a low-stress, high-reflectance
coating process for the deformable mirror faceplate and has developed
an aluminum coating that protects the epoxied post and transducer
joint from flash-lamp radiation. This photograph shows a completed
deformable mirror. "Around the Laboratory," September
2002
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 Physics
of Supernova Explosions
A wide range of experiments performed through the NLUF Program on the
OMEGA laser are exploring the physics of supernova explosions.
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 X-ray
Thomson Scattering
The first demonstration of x-ray Thomson scattering as a high-density
temperature and density diagnostic occurred at LLE. The target configuration
shown in this illustration used x-ray radiation from a Ti plasma as a
probe. DOE Progress Report, September 2002
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 Summer
High School Research Program
This year LLE hosted 15 local high school students in its research program.
Each student is assigned a mentor and a research project. At the end
of the program each student is required to present the results of their
research. In conjunction with the research presentations the 2002 William
D. Ryan Inspirational Teacher Award was presented to James Keefer of
Brockport High School. Recipients of the award are nominiated by past
and present participants of the Summer High School Research Program.
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For current information on LLE's accomplishments, read our quarterly
publication, the LLE Review, and the monthly DOE Progress Report.
Current and past issues are available through the Publications section
of this web site.
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