Deficiencies in compression and yield in x-ray-driven implosions

Deficiencies in compression and yield in x-ray-driven implosions

This paper analyzes x-ray-driven implosions that are designed to be less sensitive to 2D and 3D effects in Hohlraum and capsule physics. Key performance metrics including the burn-averaged ion temperature, hot-spot areal density, and fusion yield are found to agree with simulations where the design...

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Veröffentlicht in:Physics of plasmas 2020-11, Vol.27 (11)
Hauptverfasser: Thomas, C. A., Campbell, E. M., Baker, K. L., Casey, D. T., Hohenberger, M., Kritcher, A. L., Spears, B. K., Khan, S. F., Nora, R., Woods, D. T., Milovich, J. L., Berger, R. L., Strozzi, D., Ho, D. D., Clark, D., Bachmann, B., Benedetti, L. R., Bionta, R., Celliers, P. M., Fittinghoff, D. N., Grim, G., Hatarik, R., Izumi, N., Kyrala, G., Ma, T., Millot, M., Nagel, S. R., Patel, P. K., Yeamans, C., Nikroo, A., Tabak, M., Gatu Johnson, M., Volegov, P. L., Finnegan, S. M.
Format: Artikel
Sprache:eng
Schlagworte:
Implosions
Internal pressure
Ion temperature
Performance measurement
Plasma physics
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Beschreibung
Zusammenfassung:This paper analyzes x-ray-driven implosions that are designed to be less sensitive to 2D and 3D effects in Hohlraum and capsule physics. Key performance metrics including the burn-averaged ion temperature, hot-spot areal density, and fusion yield are found to agree with simulations where the design adiabat (internal pressure) is multiplied by a factor of 1.4. These results motivate the development of a simple model for interpreting experimental data, which is then used to quantify how improvements in compression could help achieve ignition.
ISSN:1070-664X
1089-7674
DOI:10.1063/5.0022187