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

Authors :: Benjamin Bachmann
A. L. Kritcher
M. Gatu Johnson
Peter M. Celliers
Sabrina Nagel
Tammy Ma
Jose Milovich
David Strozzi
C. B. Yeamans
Matthias Hohenberger
G. A. Kyrala
S. M. Finnegan
Max Tabak
E. M. Campbell
David N. Fittinghoff
Kevin Baker
C. A. Thomas
Nobuhiko Izumi
R. M. Bionta
Daniel Casey
Laura Robin Benedetti
Brian Spears
Shahab Khan
Robert Hatarik
Richard Berger
P. K. Patel
A. Nikroo
Gary Grim
Marius Millot
D. T. Woods
Darwin Ho
Petr Volegov
Ryan Nora
David C. Clark
Source :: Physics of Plasmas. 27:112705
Publication Year :: 2020
Publisher :: AIP Publishing, 2020.
Abstract: 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.