High Mach number mix instability experiments of an unstable density interface using a single-mode, nonlinear initial perturbation

The growth of an unstable density interface from a nonlinear, single-mode, two-dimensional initial perturbation (10 mu m amplitude; 23 mu m wavelength ) has been studied experimentally using a miniature shock tube attached to a gold hohlraum irradiated by the Nova laser [J. T. Hunt and D. R. Speck, O pt. Eng. 28, 461 (1989)]. The initial perturbation was machined into a brom inated plastic ablator (1.22 g/cm(3)) adjacent to a low density carbon foam (0.10 g/cm(3)). Upon laser illumination of the hohlraum and x-ray ablation of the plastic, a strong shock wave (Mach similar to 30) propagated across the perturbed density interface causing the onset of the Richtmyer-Meshkov (RM) instability. The interface subsequently experienced a relatively weak Rayleigh-Taylor (RT) unstable deceleration. The nonlinear growth of the mi xing layer was obtained from time-resolved radiography of the x-ray transmi ssion through the shock tube, and the decompression-corrected results were compared to published incompressible models, including a Lagrangian energy formulation. The experimental data were also compared with the results of t wo-dimensional numerical simulation. [S1070-664X(99)01311-7].