1. Measurement of mix at the fuel–ablator interface in indirectly driven capsule implosions on the National Ignition Facility.
- Author
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Hall, G. N., Weber, C. R., Smalyuk, V. A., Landen, O. L., Trosseille, C., Pak, A., Hartouni, E., Marley, E., Ebert, T., Bradley, D. K., Hsing, W., Tommasini, R., Izumi, N., Pape, S. Le, Divol, L., Krauland, C. M., Thompson, N., Casco, E. R., Ayers, M. J., and Nagel, S. R.
- Subjects
IMPLOSIONS ,INTERFACE stability ,RADIOGRAPHY ,DOPING agents (Chemistry) ,RADIOGRAPHS ,ICE crystals ,SEA ice - Abstract
The interface between the capsule ablator and fuel ice layer is susceptible to hydrodynamic instabilities. The subsequent mixing of hot ablator material into the ice reduces fuel compression at stagnation and is a candidate for reduced capsule performance. The ability to diagnose ice–ablator mix is critical to understanding and improving stability at this interface. Combining the crystal backlighter imager with the single line of sight camera on the National Ignition Facility (NIF) allows direct measurement of ice–ablator mix by providing multiple quasi-monochromatic radiographs of layered capsule implosions per experiment with high spatial (∼12 μm) and temporal (∼35 ps) resolution. The narrow bandwidth of this diagnostic platform allows radiography of the inner edge of the capsule limb close to stagnation without capsule self-emission contaminating the data and removes opacity uncertainties typically associated with the spectral content of the radiograph. Analysis of radiographic data via a parameterized forward-fitting Abel inversion technique provides measurements of the distribution of mix mass inwards from the ice–ablator interface. The sensitivity of this mix measurement technique was demonstrated by applying it to layered experiments in which the stability of the ice–ablator interface was expected to vary significantly. Additional experiments suggest that high-density carbon capsules that employ a buried-layer dopant profile suffer from mixing at the innermost doped–undoped interface. Data from these experiments suggest that opacity models used in hydrodynamic simulations of NIF experiments can potentially over-predict the opacity of doped capsules. LLNL-JRNL-850535-DRAFT. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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