Hydrodynamic efficiency as determined from implosion experiments at wavelength = 0.26 um

Michel Koenig; Edouard Fabre; Victor Malka; Peter X. Hammerling; Alain Michard; Jean-Michel Boudenne; A. P. Fews

doi:10.1117/12.46908

1 October 1991 Hydrodynamic efficiency as determined from implosion experiments at wavelength = 0.26 μm

Michel Koenig, Edouard Fabre, Victor Malka, Peter X. Hammerling, Alain Michard, Jean-Michel Boudenne, A. P. Fews

Proceedings Volume 1502, Industrial and Scientific Uses of High-Power Lasers; (1991) https://doi.org/10.1117/12.46908
Event: ECO4 (The Hague '91), 1991, The Hague, Netherlands

Abstract

The hydrodynamic and implosion efficiencies, defined respectively as the ratios of the thermal energy in the fuel and the kinetic energy in the shell to the absorbed laser energy, have been estimated in a series of experiments using = 0.26 im laser illumination of D-T filled glass microballons.

Citation Download Citation

Michel Koenig, Edouard Fabre, Victor Malka, Peter X. Hammerling, Alain Michard, Jean-Michel Boudenne, and A. P. Fews "Hydrodynamic efficiency as determined from implosion experiments at wavelength = 0.26 μm", Proc. SPIE 1502, Industrial and Scientific Uses of High-Power Lasers, (1 October 1991); https://doi.org/10.1117/12.46908

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