A model of laser imprinting
暂无分享,去创建一个
R. Town | O. Gotchev | J. Knauer | D. Meyerhofer | R. Betti | T. Boehly | V. Goncharov | P. McKenty | S. Skupsky | V. Smalyuk
[1] Adam T. Drobot,et al. Computer Applications in Plasma Science and Engineering , 2011, Springer New York.
[2] L. Baker. Stability of ablation and combustion fronts , 1978 .
[3] R. Betti,et al. Self‐consistent stability analysis of ablation fronts with large Froude numbers , 1996 .
[4] Hiroshi Azechi,et al. Direct-drive hydrodynamic instability experiments on the GEKKO XII laser , 1997 .
[5] R. Town,et al. Nonlinear evolution of broad-bandwidth, laser-imprinted nonuniformities in planar targets accelerated by 351-nm laser light , 1999 .
[6] K. Nishihara,et al. PROPAGATION OF A RIPPLED SHOCK WAVE DRIVEN BY NONUNIFORM LASER ABLATION , 1997 .
[7] M. Key,et al. Simulations of laser imprint for Nova experiments and for ignition capsules. Revision 1 , 1996 .
[8] S. Skupsky,et al. Irradiation uniformity for high-compression laser-fusion experiments , 1999 .
[9] Samuel A. Letzring,et al. Initial performance results of the OMEGA laser system , 1997 .
[10] J. Nuckolls,et al. Laser Compression of Matter to Super-High Densities: Thermonuclear (CTR) Applications , 1972, Nature.
[11] A. R. Piriz,et al. Rayleigh-Taylor instability of steady ablation fronts: The discontinuity model revisited , 1997 .
[12] J. Gardner,et al. Wavelength scaling for reactor-size laser fusion targets. Memorandum report , 1981 .
[13] A. Velikovich,et al. Saturation of perturbation growth in ablatively driven planar laser targets , 1998 .
[14] Sanz. Self-consistent analytical model of the Rayleigh-Taylor instability in inertial confinement fusion. , 1994, Physical review. E, Statistical physics, plasmas, fluids, and related interdisciplinary topics.
[15] J. Boris,et al. Influence of Nonuniform Laser Intensities on Ablatively Accelerated Targets , 1982 .
[16] Haan. Onset of nonlinear saturation for Rayleigh-Taylor growth in the presence of a full spectrum of modes. , 1989, Physical review. A, General physics.
[17] Andrew J. Schmitt,et al. Theory of induced spatial incoherence , 1987 .
[18] Gregory A. Moses,et al. Inertial confinement fusion , 1982 .
[19] V. Goncharov. Theory of the Ablative Richtmyer-Meshkov Instability , 1999 .
[20] Robert L. McCrory,et al. Growth rates of the ablative Rayleigh–Taylor instability in inertial confinement fusion , 1998 .
[21] Samuel A. Letzring,et al. Improved laser‐beam uniformity using the angular dispersion of frequency‐modulated light , 1989 .
[22] P. Lovoi,et al. Laser paint stripping offers control and flexibility , 1994 .
[23] Nonuniform target illumination in the deflagration regime: Thermal smoothing , 1988 .
[24] John H. Gardner,et al. Hydrodynamic target response to an induced spatial incoherence-smoothed laser beam , 1991 .