P. W. Rambo scite author profile

P. W. Rambo

5Publications

323Citation Statements Received

8Citation Statements Given

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308

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Affiliations

Lawrence Livermore National Laboratory

Publications

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Development and characterization of a Z-pinch-driven hohlraum high-yield inertial confinement fusion target concept

Cuneo

Vesey

Porter

et al. 2001

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We describe the injtial experiments to study the Z-pinch-drjven hohlraum ligh-yield jnertjal confinement fusion (ICF) concept of Hammer and Porter [J. H. Hammer et al., Phys. Plasmas, 6, 2129]. We show that the relationship between measured pinch power, hohlraum temperature, and secondary hohlraum coupling ("hohlraurn energetic") is well understood from O-D semi-analytic, 2-D viewfactor, and 2-D radiation magneto-hydrodynamics models. These experiments have shown the highest x-ray powers coupled to any Z-pjnch driven secondary (2655 TW), indicating the concept could scale to fusion yields of 400 MJ. We have also developed a novel, single-sided power feed, double-pinch driven secondary that meets the pinch simultaneity requirements for polar radiation symmetry. This source wjll perrnjt investigation of the pinch power balance and hohh-aum geometry requirements for ICF reIevant secondary radiation symmetry, leading to a capsule implosion capability on the Z accelerator [R. B.Spielman. er al.. Phys. Plasmas. 5,2105Plasmas. 5, (1998].

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High yield inertial confinement fusion target design for a z-pinch-driven hohlraum

et al. 1999

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Calculations are presented for a high yield inertial fusion design, employing indirect drive with a double-ended z-pinch-driven hohlraum radiation source. A high current (∼60 MA) accelerator implodes z pinches within an enclosing hohlraum. Radial spoke arrays and shine shields isolate the capsule from the pinch plasma, magnetic field, and direct x-ray shine. Our approach places minimal requirements on z-pinch uniformity and stability, usually problematic due to magneto-Rayleigh–Taylor instability. Large inhomogeneities of the pinch and spoke array may be present, but the hohlraum adequately smooths the radiation field at the capsule. Simultaneity and reproducibility of the pinch x-ray output to better than 7% are required, however, for good symmetry. Recent experiments suggest a pulse shaping technique, through implosion of a multishell z pinch. X-ray bursts are calculated and observed to occur at each shell collision. A capsule absorbing 1 MJ of x rays at a peak drive temperature of 210 eV is found to have adequate stability and to produce 400 MJ of yield. A larger capsule absorbs 2 MJ with a yield of 1200 MJ.

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Diffusive, supersonic x-ray transport in radiatively heated foam cylinders

Back

Bauer

Hammer

et al. 2000

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Diffusive supersonic radiation transport, where the ratio of the diffusive radiation front velocity to the material sound speed >2 has been studied in experiments on low density (40 mg/cc to 50 mg/cc) foams. Laser-heated Au hohlraums provided a radiation drive that heated SiO2 and Ta2O5 aerogel foams of varying lengths. Face-on emission measurements at 550 eV provided clean signatures of the radiation breakout. The high quality data provides new detailed information on the importance of both the fill and wall material opacities and heat capacities in determining the radiation front speed and curvature. The Marshak radiation wave transport is studied in a geometry that allows direct comparisons with analytic models and two-dimensional code simulations. Experiments show important effects that will affect even nondiffusive and transonic radiation transport experiments studied by others in the field. This work is of basic science interest with applications to inertial confinement fusion and astrophysics.

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Interpenetration and ion separation in colliding plasmas

Rambo

Denavit

1994

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The interpenetration of colliding plasmas in the transition regime, where the ion–ion mean-free path is of the same order as the gradient scale length, is studied by one-dimensional simulations and dimensional analysis. Separate fluid equations for multiple species are solved, with coupling between the different species due to the electric field and Coulomb collisions. These simulations show initial interpenetration followed by a ‘‘soft’’ stagnation. For colliding plasmas characteristic of opposing laser heated disks, the stagnation time, the stagnation density and temperature, and the interpenetration distance are shown to depend primarily on a single parameter, defining the ratio of the scale length to the ion–ion mean-free path. Simulations of colliding plasmas from exploding plastic foils with separate ion fluids for the carbon and hydrogen are presented, showing appreciable ion separation. These results may provide a guide for the design of interpenetrating plasma experiments.

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Electron density measurement of a colliding plasma using soft-x-ray laser interferometry

et al. 1997

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The understanding of the collision and subsequent interaction of counter-streaming high-density plasmas is important for the design of indirectly-driven inertial confinement fusion (ICF) hohlraums. We have employed a soft x-ray Mach-Zehnder interferometer. using a Ne-like Y xray laser at 155 A as the probe source, to study interpenetration and stagnation of two colliding plasmas. We observed a peaked density profile at the symmetry axis with a wide stagnation region with width of order 100 pm. We compare the measured density profile with density profiles calculated by the radiation hydrodynamic code LASNEX and a multi-specie fluid code which allows for interpenetration. The measured density profile falls in between the calculated profiles using collisionless and fluid approximations. By using different target materials and irndiation configurations, we can vary the collisionality of the plasma. We hope to use the soft x-ray laser interferometry as a mechanism to validate and benchmark our numerical codes used for the design and analysis of high-energy-density physics experiments.

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P. W. Rambo

Development and characterization of a Z-pinch-driven hohlraum high-yield inertial confinement fusion target concept

High yield inertial confinement fusion target design for a z-pinch-driven hohlraum

Diffusive, supersonic x-ray transport in radiatively heated foam cylinders

Interpenetration and ion separation in colliding plasmas

Electron density measurement of a colliding plasma using soft-x-ray laser interferometry

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