Simultaneously measured DD, DT, and (DHe)-He-3 reaction histories are used to probe the impacts of multi-ion physics during the shock phase of inertial confinement fusion implosions. In these relatively hydrodynamiclike (burn-averaged Knudsen number NK similar to 0.3) shock-driven implosions, average-ion hydrodynamic DUED simulations are able to reasonably match burnwidths, nuclear yields, and ion temperatures. However, kinetic-ion FPION simulations are able to better simulate the timing differences and time-resolved reaction rate ratios between DD, DT, and (DHe)-He-3 reactions. FPION simulations suggest that the (DHe)-He-3/DT reaction rate ratio is most directly impacted by ion species separation between the He-3 and T ions, whereas the (DHe)-He-3/DD reaction rate ratio is affected by both ion species separation and ion temperature decoupling effects.
Probing ion species separation and ion thermal decoupling in shock-driven implosions using multiple nuclear reaction histories / Sio, H.; Larroche, O.; Atzeni, S.; Kabadi, N. V.; Frenje, J. A.; Gatu Johnson, M.; Stoeckl, C.; Li, C. K.; Forrest, C. J.; Glebov, V.; Adrian, P. J.; Bose, A.; Birkel, A.; Regan, S. P.; Seguin, F. H.; Petrasso, R. D.. - In: PHYSICS OF PLASMAS. - ISSN 1070-664X. - 26:7(2019). [10.1063/1.5097605]
Probing ion species separation and ion thermal decoupling in shock-driven implosions using multiple nuclear reaction histories
Atzeni S.;
2019
Abstract
Simultaneously measured DD, DT, and (DHe)-He-3 reaction histories are used to probe the impacts of multi-ion physics during the shock phase of inertial confinement fusion implosions. In these relatively hydrodynamiclike (burn-averaged Knudsen number NK similar to 0.3) shock-driven implosions, average-ion hydrodynamic DUED simulations are able to reasonably match burnwidths, nuclear yields, and ion temperatures. However, kinetic-ion FPION simulations are able to better simulate the timing differences and time-resolved reaction rate ratios between DD, DT, and (DHe)-He-3 reactions. FPION simulations suggest that the (DHe)-He-3/DT reaction rate ratio is most directly impacted by ion species separation between the He-3 and T ions, whereas the (DHe)-He-3/DD reaction rate ratio is affected by both ion species separation and ion temperature decoupling effects.| File | Dimensione | Formato | |
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