ICFA: Inertial Confinement Fusion II: Material Effects on Stability
FOCUS · U08 · ID: 3364276
Presentations
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The Role of Material Properties in Magnetized Liner Inertial Fusion Performance
ORAL
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Presenters
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Adam J Harvey-Thompson
Sandia National Laboratories
Authors
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Adam J Harvey-Thompson
Sandia National Laboratories
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David J. Ampleford
Sandia National Laboratories
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Jerry A Crabtree
Sandia National Laboratories
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Jeffrey R Fein
Sandia National Laboratories
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Matthias Geissel
Sandia National Laboratories
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Matthew R Gomez
Sandia National Laboratories
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Maren W Hatch
Sandia National Laboratories
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Christopher A Jennings
Sandia National Laboratories
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William Edward Lewis
Sandia National Laboratories
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Owen M Mannion
Sandia National Laboratories
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Daniel E Ruiz
Sandia National Laboratories
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Marc-Andre Schaeuble
Sandia National Laboratories
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Stephen A Slutz
Sandia National Laboratories
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Luke Shulenburger
Sandia National Laboratories
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Lucas J Stanek
Sandia National Laboratories
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Matthew R Weis
Sandia National Laboratories
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Jeffrey M Woolstrum
Sandia National Laboratories
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David A Yager-Elorriaga
Sandia National Laboratories
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Edmund P Yu
Sandia National Laboratories
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The Sensitivity of Inertial Confinement Fusion Simulations to Equations of State and Conductivity Datasets
ORAL · Invited
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Publication: Stanek, Lucas J., et al. "ETHOS: An automated framework to generate multi-fidelity constitutive data tables and propagate uncertainties to hydrodynamic simulations." Physics of Plasmas 31.10 (2024)
Robinson, Allen C., et al. "Fundamental issues in the representation and propagation of uncertain equation of state information in shock hydrodynamics." Computers & Fluids 83 (2013).Presenters
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Lucas J Stanek
Sandia National Laboratories
Authors
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Lucas J Stanek
Sandia National Laboratories
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William Edward Lewis
Sandia National Laboratories
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John H Carpenter
Sandia National Laboratories
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Kyle R Cochrane
Sandia National Laboratories
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Christopher A Jennings
Sandia National Laboratories
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Stephanie B Hansen
Sandia National Laboratories
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The impact of surface imperfections on aluminum rods pulsed with extreme current
ORAL
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Publication: M. W. Hatch, T. J. Awe, E. P. Yu, B. T. Hutsel, and M. Gilmore, "2D and 3D surface perturbations effects on plasma formation on high-current-density-conductors", for submission to Phys. Plasmas April 15, 2025.
M. W. Hatch, T. J. Awe, E. P. Yu, B. T. Hutsel, and M. Gilmore, "Plasma formation sourced from scaled machined surface defect geometries in ultra-pure aluminum", for submission to Phys. Plasmas Dec. 15, 2025.Presenters
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Maren W Hatch
Sandia National Laboratories
Authors
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Maren W Hatch
Sandia National Laboratories
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Thomas J Awe
Sandia National Laboratories
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Edmund P Yu
Sandia National Laboratories
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Brian T Hutsel
Sandia National Laboratories
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Kurt Tomlinson
General Atomics
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Exploring stability of multi-layer and graded density MagLIF liners
ORAL
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Presenters
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Christopher A Jennings
Sandia National Laboratories
Authors
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Christopher A Jennings
Sandia National Laboratories
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Stephen A Slutz
Sandia National Laboratories
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Matthew R Gomez
Sandia National Laboratories
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Matthew R Weis
Sandia National Laboratories
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Adam J Harvey-Thompson
Sandia National Laboratories
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Daniel E Ruiz
Sandia National Laboratories
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Lucas J Stanek
Sandia National Laboratories
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Jeffrey R Fein
Sandia National Laboratories
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Edmund P Yu
Sandia National Laboratories
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Enhanced stability of imploding liners caused by material strength
ORAL
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Presenters
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Victor Beltran Martinez
First Light Fusion
Authors
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James D Pecover
First Light Fusion, First Light Fusion Ltd
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Victor Beltran Martinez
First Light Fusion
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Jonathan W Skidmore
First Light Fusion
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Guy C Burdiak
First Light Fusion
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