Measurements of direct drive laser imprint in thin foils by radiography using an x-ray laser backlighter

In direct drive inertial confinement fusion, the residual speckle pattern remaining after beam smoothing plays an important role in the seeding of instabilities at the ablation front. An x-ray laser is used as an extreme ultraviolet backlighter to characterize the imprinted modulation in thin foils...

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Bibliographic Details
Published in:Physics of Plasmas 1997-05, Vol.4 (5), p.1985-1993
Main Authors: Kalantar, D. H., Key, M. H., Da Silva, L. B., Glendinning, S. G., Remington, B. A., Rothenberg, J. E., Weber, F., Weber, S. V., Wolfrum, E., Kim, N. S., Neely, D., Zhang, J., Wark, J. S., Demir, A., Lin, J., Smith, R., Tallents, G. J., Lewis, C. L. S., MacPhee, A., Warwick, J., Knauer, J. P.
Format: Article
Language:English
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Summary:In direct drive inertial confinement fusion, the residual speckle pattern remaining after beam smoothing plays an important role in the seeding of instabilities at the ablation front. An x-ray laser is used as an extreme ultraviolet backlighter to characterize the imprinted modulation in thin foils for smoothing by random phase plate and by spectral dispersion for both 0.35 and 0.53 μ m irradiation, and by induced spatial incoherence for 0.53 μ m irradiation. Measurements of the imprinted modulation due to a single optical mode generated by two beam interference, and modification of the imprint with a superposed smooth irradiation to study time dependence of the imprinting process are demonstrated.
ISSN:1070-664X
1089-7674
DOI:10.1063/1.872340