Development and modeling of a polar-direct-drive exploding pusher platform at the National Ignition Facility

Autor: C. R. D. Brown, Sean R. Copeland, Ronnie Shepherd, Hai P. Le, Howard A. Scott, J. Pino, C. M. Krauland, R. Stephen Craxton, E. M. Garcia, Hui Chen, Brandon Lahmann, Frank Graziani, Heather D. Whitley, Maria Gatu Johnson, Warren Garbett, P. W. McKenty, Marilyn Schneider, Z. B. Walters, G. Elijah Kemp, C. Leland Ellison, Michael Rubery, Hong Sio, John I. Castor
Rok vydání: 2018
Předmět:
Zdroj: Physics of Plasmas. 25:072710
ISSN: 1089-7674
1070-664X
Popis: High-intensity laser facilities, such as the National Ignition Facility (NIF), enable the experimental investigation of plasmas under extreme, high-energy-density conditions. Motivated by validating models for collisional heat-transfer processes in high-energy-density plasmas, we have developed an exploding pusher platform for use at the NIF in the polar-direct-drive configuration. The baseline design employs a 3 mm-diameter capsule, an 18 μm-thick CH ablator, and Ar-doped D2 gas to achieve several keV electron-ion temperature separations with relatively low convergence ratios. In an initial series of shots at the NIF—N160920–003, -005, and N160921–001—the ratio of the laser intensity at different polar angles was varied to optimize the symmetry of the implosion. Here we summarize experimental results from the shot series and present pre- and post-shot analysis. Although the polar-direct-drive configuration is inherently asymmetric, we successfully tuned a post-shot 1D model to a set of key implosion performance metrics. The post-shot model has proven effective for extrapolating capsule performance to higher incident laser drive. Overall, the simplicity of the platform and the efficacy of the post-shot 1D model make the polar-direct-drive exploding pusher platform attractive for a variety of applications beyond the originally targeted study of collisional processes in high-energy-density plasmas.
Databáze: OpenAIRE
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