First graded metal pushered single shell capsule implosions on the National Ignition Facility
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Published:2022-05
Issue:5
Volume:29
Page:052707
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ISSN:1070-664X
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Container-title:Physics of Plasmas
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language:en
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Short-container-title:Physics of Plasmas
Author:
Dewald E. L.1ORCID, MacLaren S. A.1ORCID, Martinez D. A.1ORCID, Pino J. E.1ORCID, Tipton R. E.1, Ho D. D.-M.1, Young C. V.1ORCID, Horwood C.1, Khan S. F.1ORCID, Hartouni E. P.1ORCID, Rubery M. S.1, Millot M.1ORCID, Vazsonyi A. R.1ORCID, Vonhof S.1, Mellos G.1, Johnson S.1ORCID, Smalyuk V. A.1ORCID, Graziani F.1ORCID, Monzon E. R.1ORCID, Tommasini R.1ORCID, Alessi D.1ORCID, Ayers S.1ORCID, Hall G. N.1ORCID, Holder J.1ORCID, Kalantar D.1ORCID, MacKinnon A. J.1ORCID, Okui J.1, Prantil M.1ORCID, Di Nicola J.-M.1, Lanier T.1, Thomas A.1, Yang S.1, Xu H. W.2, Huang H.2, Bae J.2ORCID, Kong C. W.2, Rice N.2, Wang Y. M.3, Volegov P.4ORCID, Freeman M. S.4, Wilde C.4
Affiliation:
1. Lawrence Livermore National Laboratory, P.O. Box 808, Livermore, California 94550, USA 2. General Atomics, San Diego, California 92186, USA 3. University of California, Los Angeles Samueli School of Engineering, Los Angeles, California 90095, USA 4. Los Alamos National Laboratory, Los Alamos, New Mexico 87545, USA
Abstract
Graded metal pushered single shell (PSS) capsules are predicted to be a viable alternative to low-Z capsule indirect drive inertial confinement fusion (ICF) implosions for achieving high fusion yields [MacLaren et al., Phys. Plasmas 28, 122710 (2021)]. The first experiments with Be/Cr-graded metal PSS capsules indicate that the implementation of the principle design feature, the graded density inner metal layer, has succeeded in producing a stable implosion with performance in agreement with predictions. With 50% Cr concentration in the pusher, PSS capsules have greater than ∼2× higher shell densities during stagnation for enhanced core confinement and radiation trapping at ∼35% lower shell implosion velocities than low-Z capsules. High-energy >30 keV inflight shell radiography recorded 215 km/s implosion velocities and show that implosion Legendre mode P2 asymmetry can be tuned via inner-to-outer beam wavelength separation, similar to other implosions. Shell radiographs and neutron core images show similar P2 asymmetry, suggesting no symmetry swings between peak implosion velocity and stagnation times. Despite the modest implosion velocities, gas-filled deuterium–tritium capsule implosions generate 1015 neutron yields at relatively modest core ion temperatures of 2.75 keV, indicating that in spite of the high-density inner layer, the implosions have been stabilized by the design density gradient. When compared with hydrodynamic simulations, the measured yield-over-simulated is 35% due to fuel–pusher mix and other perturbations such as the capsule fill tube. Simple analytical scalings of hot spot pressure and neutron yield show that PSS implosions reach similar performance at lower implosion velocities and higher shell densities to low-Z ICF capsules.
Funder
US Department of Energy
Subject
Condensed Matter Physics
Cited by
5 articles.
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