| Title: |
Fabrication of Beryllium Capsules with Copper-Doped Layers for NIF Targets: A Progress Report |
| Authors: |
McElfresh, Michael; Gunther, Janelle; Alford, Craig; Fought, Eric; Cook, Robert; Nikroo, Abbas; Xu, Hongwei; Cooley, Jason C.; Field, Robert D.; Hackenberg, Robert E.; Nobile, Art |
| Contributors: |
United States. Department of Energy. |
| Source: |
Journal Name: The Fusion Science and Technology; Journal Volume: 49; Journal Issue: 4 |
| Publisher Information: |
Lawrence Livermore National Laboratory |
| Publication Year: |
2005 |
| Collection: |
University of North Texas: UNT Digital Library |
| Subject Terms: |
Copper; Laser Targets; Plastics; Sputtering; Processing; 36 Materials Science; Thickness; Us National Ignition Facility; Thin Films; 42 Engineering; Targets; Exploration; Ignition; Microstructure; Fabrication; Beryllium; Substrates |
| Description: |
The sputtering of beryllium (Be) has been used at LLNL for nearly 30 years in the fabrication of laser targets. Several years ago the prospect of using sputtering to fabricate spherical Be capsules for National Ignition Facility (NIF) targets began to be explored and a basic strategy was developed that involved sputtering down onto plastic mandrels bouncing in a pan. While this appears to be very straightforward in principle, in practice sputtering has been used almost exclusively to make thin films (< 1 micron) on flat substrates. Thick films pose a significant challenge for sputtering while materials on spherical substrates are essentially unexplored. More recently, based on computational results, the point design for the first NIF ignition target capsule was specified as a Be capsule with Cu-doped layers of specific thickness, each layer with a different concentration of copper. While the work described here was motivated by the need to make the layered capsules, the primary progress on Be capsules has been the development of a more complete metallurgical understanding of the materials that are fabricated and the beginning of the exploration of the relationship between the sputter processing and microstructure of these spherical samples. At least two barriers to growth to full thickness (i.e. 170 microns) have been identified and efforts to overcome these barriers are underway. |
| Document Type: |
article in journal/newspaper |
| File Description: |
PDF-file: 20 pages; size: 0 Kbytes; Text |
| Language: |
English |
| Relation: |
osti: 886918; https://digital.library.unt.edu/ark:/67531/metadc891568/; ark: ark:/67531/metadc891568 |
| Availability: |
https://digital.library.unt.edu/ark:/67531/metadc891568/ |
| Accession Number: |
edsbas.EB75B676 |
| Database: |
BASE |