• Letter

Diagnosing the origin and impact of low-mode asymmetries in ignition experiments at the National Ignition Facility

D. Casey, B. MacGowan, O. Hurricane, O. Landen, R. Nora, S. Haan, A. Kritcher, A. Zylstra, J. Ralph, E. Dewald, M. Hohenberger, A. Pak, P. Springer, C. Weber, J. Milovich, L. Divol, E. Hartouni, R. Bionta, K. Hahn, D. Schlossberg, A. Moore, and M. Gatu Johnson
Phys. Rev. E 108, L053203 – Published 20 November 2023
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    Abstract

    Inertial confinement fusion ignition requires high inflight shell velocity, good energy coupling between the hotspot and shell, and high areal density at peak compression. Three-dimensional asymmetries caused by imperfections in the drive symmetry or target can grow and damage the coupling and confinement. Recent high-yield experiments have shown that low-mode asymmetries are a key degradation mechanism and contribute to variability. We show the experimental signatures and impacts of asymmetry change with increasing implosion yield given the same initial cause. This letter has implications for improving robustness to a key degradation in ignition experiments.

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    • Received 4 January 2023
    • Revised 27 July 2023
    • Accepted 17 October 2023

    DOI:https://doi.org/10.1103/PhysRevE.108.L053203

    ©2023 American Physical Society

    Physics Subject Headings (PhySH)

    1. Research Areas
    Implosion symmetryInertial confinement fusion
    Plasma Physics

    Authors & Affiliations

    D. Casey1,*, B. MacGowan1, O. Hurricane1, O. Landen1, R. Nora1, S. Haan1, A. Kritcher1, A. Zylstra1, J. Ralph1, E. Dewald1, M. Hohenberger1, A. Pak1, P. Springer1, C. Weber1, J. Milovich1, L. Divol1, E. Hartouni1, R. Bionta1, K. Hahn1, D. Schlossberg1, A. Moore1, and M. Gatu Johnson2

    • 1Lawrence Livermore National Laboratory, Livermore, CA 94550, USA
    • 2Massachusetts Institute of Technology (MIT), Cambridge, 02139 Massachusetts, USA

    • *casey21@llnl.gov

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    Issue

    Vol. 108, Iss. 5 — November 2023

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