Ion Thermal Decoupling and Species Separation in Shock-Driven Implosions
Author(s)
Rosenberg, M. J.; Hoffman, N. M.; Kagan, Grigory Alexandrovich; Amendt, P.; Bellei, C.; Wilks, S.; Delettrez, J. A.; Glebov, V. Yu.; Stoeckl, C.; Sangster, T. C.; Meyerhofer, D. D.; Nikroo, A.; Rinderknecht, Hans George; Li, Chikang; Zylstra, Alex Bennett; Sio, Hong Weng; Frenje, Johan A.; Gatu Johnson, Maria; Seguin, Fredrick Hampton; Petrasso, Richard D.; ... Show more Show less
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Anomalous reduction of the fusion yields by 50% and anomalous scaling of the burn-averaged ion temperatures with the ion-species fraction has been observed for the first time in D[superscript 3]He-filled shock-driven inertial confinement fusion implosions. Two ion kinetic mechanisms are used to explain the anomalous observations: thermal decoupling of the D and [superscript 3]He populations and diffusive species separation. The observed insensitivity of ion temperature to a varying deuterium fraction is shown to be a signature of ion thermal decoupling in shock-heated plasmas. The burn-averaged deuterium fraction calculated from the experimental data demonstrates a reduction in the average core deuterium density, as predicted by simulations that use a diffusion model. Accounting for each of these effects in simulations reproduces the observed yield trends.
Date issued
2015-01Department
Massachusetts Institute of Technology. Department of Physics; Massachusetts Institute of Technology. Plasma Science and Fusion CenterJournal
Physical Review Letters
Publisher
American Physical Society
Citation
Rinderknecht, Hans G., et al. "Ion Thermal Decoupling and Species Separation in Shock-Driven Implosions." Phys. Rev. Lett. 114, 025001 (January 2015). © 2015 American Physical Society
Version: Final published version
ISSN
0031-9007
1079-7114