LASER IMPRINT REDUCTION USING A LOW-DENSITY FOAM BUFFER AS A THERMAL SMOOTHING LAYER AT 351-NM WAVELENGTH

Authors
WATT RG DUKE J FONTES CJ GOBBY PL HOLLIS RV KOPP RA MASON RJ WILSON DC VERDON CP BOEHLY TR KNAUER JP MEYERHOFER DD SMALYUK V TOWN RPJ IWASE A WILLI O
Citation
Rg. Watt et al., LASER IMPRINT REDUCTION USING A LOW-DENSITY FOAM BUFFER AS A THERMAL SMOOTHING LAYER AT 351-NM WAVELENGTH, Physical review letters, 81(21), 1998, pp. 4644-4647
Citations number
13
Categorie Soggetti
Physics
Journal title
Physical review lettersACNP
ISSN journal
00319007
Volume
81
Issue
21
Year of publication
1998
Pages
4644 - 4647
Database
ISI
SICI code
0031-9007(1998)81:21<4644:LIRUAL>2.0.ZU;2-3
Abstract
Laser-nonuniformity-induced perturbation growth has been measured on p lanar foam-buffered plastic (CII) targets irradiated with 351-nm laser radiation. The maximum observed perturbation growth was reduced by ab out 50% by the foam buffer. Rayleigh-Taylor unstable growth of intenti onal mass modulations was minimally changed by the addition of the foa m buffer. We conclude that the reduction of laser-induced perturbation growth is a result of a reduction in the perturbation seed amplitude rather than any changes in the growth rate in the solid due to preheat ing by radiation or shocks caused by the presence of the foam buffer. [S0031-9007(98)07706-0].