Simulation and analysis of time-gated monochromatic radiographs of cryogenic implosions on OMEGA

Autor: Christian Stoeckl, F. J. Marshall, P. W. McKenty, R. Janezic, Brian Scott Rice, V. N. Goncharov, T. C. Sangster, C. Sorce, T. Z. Kosc, D. R. Harding, Riccardo Betti, Susan Regan, John H. Kelly, M. D. Wittman, Milton J. Shoup, Reuben Epstein, W. T. Shmayda, J. Ulreich, Igor V. Igumenshchev, Chad Mileham, W. Bittle, S. F. B. Morse, D. Jacobs-Perkins, P. B. Radha, Suxing Hu
Rok vydání: 2017
Předmět:
Zdroj: High Energy Density Physics. 23:167-177
ISSN: 1574-1818
Popis: Spherical polymer shells containing cryogenic DT ice layers have been imploded on the OMEGA Laser System and radiographed using Si backlighter targets (hν = 1.865 keV) driven with 20-ps IR pulses from the OMEGA EP Laser System. We report on a series of implosions in which the deuterium–tritium (DT) shell is imaged for a range of convergence ratios and in-flight aspect ratios. The shadows of the converging DT ice and polymer shells are recorded while the self-emission is minimized using a time-resolved (40-ps) monochromatic crystal imaging system. The images acquired have been analyzed for the level of ablator mixing into the DT fuel (even 0.1% of carbon mix can be reliably inferred). Simulations are compared with measured x-ray radiographs to provide insight into the early time and stagnation stages of an implosion, to guide the modeling efforts to improve the target designs, and to guide the development of this and other imagining techniques, such as Compton radiography.
Databáze: OpenAIRE