Polar direct drive on the National Ignition Facility

Skupsky, S.; Marozas, J.A.; Craxton, R. S.; Betti, R.; Collins, T. J. B.; Delettrez, J. A.; Goncharov, V. N.; McKenty, P. W.; Radha, P. B.; Boehly, T. R.; Knauer, J.P.; Marshall, F. J.; Harding, D. R.; Kilkenny, J. D.; Meyerhofer, D. D.; Sangster, T. C.; McCrory, R. L.

doi:10.1063/1.1689665

Cited by 150 publications

(99 citation statements)

References 12 publications

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“…Exploding-pusher implosions at the National Ignition Facility (NIF) 23 were conducted with ∼192 laser beams pointed in the polar direct drive configuration, 16 delivering 40 to 130 kJ onto a capsule in a 1.4-or 2.0-ns ramp pulse. The experiments used 2.2 g/cm 3 SiO 2 shells with a 1530 to 1680-µm diameter and a thickness of 4.1 to 4.6 µm, filled with 10 to 12 atm.…”

Section: Experiments and Modelingmentioning

confidence: 99%

“…To further investigate whether the trends observed in these prior experiments apply generally, under quite different experimental conditions (larger capsules, asymmetric illumination, oblate implosions), data were obtained on polar-direct-drive (PDD) 16 exploding pusher shots at the NIF that were conducted for diagnostic development and calibration. [17][18][19] In addition, given the scarcity of NIF shots for non-programmatic purposes, it is important to cull as much information and physics insight possible from these diagnostic development shots.…”

Section: Introductionmentioning

confidence: 99%

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Investigation of ion kinetic effects in direct-drive exploding-pusher implosions at the NIF

et al. 2014

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Measurements of yield, ion temperature, areal density (ρR), shell convergence, and bang time have been obtained in shock-driven, D 2 and D 3 He gas-filled "exploding-pusher" inertial confinement fusion (ICF) implosions at the National Ignition Facility (NIF) to assess the impact of ion kinetic effects. These measurements probed the shock convergence phase of ICF implosions, a critical stage in hot-spot ignition experiments. The data complement previous studies of kinetic effects in shock-driven implosions. Ion temperature and fuel ρR inferred from fusion-product spectroscopy are used to estimate the ion-ion mean free path in the gas. A trend of decreasing yields relative to the predictions of 2D draco hydrodynamics simulations with increasing Knudsen number (the ratio of ion-ion mean free path to minimum shell radius) suggests that ion kinetic effects are increasingly impacting the hot fuel region, in general agreement with previous results. The long mean free path conditions giving rise to ion kinetic effects in the gas are often prevalent during the shock phase of both exploding pushers and ablatively-driven implosions, including ignition-relevant implosions.

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Section: Experiments and Modelingmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Investigation of ion kinetic effects in direct-drive exploding-pusher implosions at the NIF

et al. 2014

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“…It is known that displacing the beam axis a distance from target centre, the so called Polar Direct Drive (PDD) [11], the illumination symmetry can be improved. By varying the value of , an optimum irradiation is obtained.…”

Section: Design Improvementsmentioning

confidence: 99%

Symmetry issues in Directly Irradiated Targets

Ramis

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et al. 2013

EPJ Web of Conferences

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Abstract. In direct drive Inertial Confinement Fusion (ICF), the typical laser beam to laser beam angle is around 30 • . This fact makes the study of the irradiation symmetry a genuine 3D problem. In this paper we use the three dimensional version of the MULTI hydrocode to assess the symmetry of such ICF implosions. More specifically, we study a shock-ignition proposal for the Laser-Mégajoule facility (LMJ) in which two of the equatorial beam cones are used to implode and precompress a spherical capsule (the "reference" capsule of HiPER project) made of 0.59 mg of pure Deuterium-Tritium mixture. The symmetry of this scheme is analysed and optimized to get a design inside the operating limits of LMJ. The studied configuration has been found essentially axial-symmetric, so that the use of 2D hydrocodes would be appropriate for this specific situation.

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“…In this case the higher intensity is situated between It is worth noticing that these optimum intensities are located off-centre. This could be regarded as the application of the polar direct-drive [15] (PDD) technique where a centred laser intensity profile moves towards the equator to compensate the over-irradiation of the polar zones [16] . In addition, it has been shown [17,18] that for the configurations C and D elliptical intensity profiles provide a more uniform irradiation than circular ones.…”

Section: Optimal Profile For Some Lmj Configurationsmentioning

confidence: 99%

Optimal laser intensity profiles for a uniform target illumination in direct-drive inertial confinement fusion

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Garbett

et al. 2014

High Pow Laser Sci Eng

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A numerical method providing the optimal laser intensity profiles for a direct-drive inertial confinement fusion scheme has been developed. The method provides an alternative approach to phase-space optimization studies, which can prove computationally expensive. The method applies to a generic irradiation configuration characterized by an arbitrary number N B of laser beams provided that they irradiate the whole target surface, and thus goes beyond previous analyses limited to symmetric configurations. The calculated laser intensity profiles optimize the illumination of a spherical target. This paper focuses on description of the method, which uses two steps: first, the target irradiation is calculated for initial trial laser intensities, and then in a second step the optimal laser intensities are obtained by correcting the trial intensities using the calculated illumination. A limited number of example applications to direct drive on the Laser MegaJoule (LMJ) are described.

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Polar direct drive on the National Ignition Facility

Cited by 150 publications

References 12 publications

Investigation of ion kinetic effects in direct-drive exploding-pusher implosions at the NIF

Investigation of ion kinetic effects in direct-drive exploding-pusher implosions at the NIF

Symmetry issues in Directly Irradiated Targets

Optimal laser intensity profiles for a uniform target illumination in direct-drive inertial confinement fusion

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