American Nuclear Society
Home

Home / Publications / Journals / Fusion Science and Technology / Volume 73 / Number 3

Machining Specific Fourier Power Spectrum Profiles into Plastics for High Energy Density Physics Experiments

Derek W. Schmidt, Tana Cardenas, Forrest W. Doss, Carlos Di Stefano, Patrick M. Donovan, Frank Fierro, Kirk A. Flippo, John I. Martinez, Alex M. Rasmus

Fusion Science and Technology / Volume 73 / Number 3 / April 2018 / Pages 474-480

Technical Paper / dx.doi.org/10.1080/15361055.2017.1406235

Received:July 21, 2017
Accepted:September 5, 2017
Published:March 7, 2018

The High Energy Density Physics program at Los Alamos National Laboratory (LANL) has had a multiyear campaign to verify the predictive capability of the interface evolution of shock propagation through different profiles machined into the face of a plastic package with an iodine-doped plastic center region. These experiments varied the machined surface from a simple sine wave to a double sine wave and finally to a multitude of different profiles with power spectrum ranges and shapes to verify LANL’s simulation capability. The MultiMode-A profiles had a band-pass flat region of the power spectrum, while the MultiMode-B profile had two band-pass flat regions. Another profile of interest was the 1-Peak profile, a band-pass concept with a spike to one side of the power spectrum. All these profiles were machined in flat and tilted orientations of 30 and 60 deg. Tailor-made machining profiles, supplied by experimental physicists, were compared to actual machined surfaces, and Fourier power spectra were compared to see the reproducibility of the machining process over the frequency ranges that physicists require.