Power-Law Spectra of Incipient Gas-Curtain Turbulence

Abstract

We investigate the evolution of a thin curtain of heavy gas (SF{sub 6} ) embedded in a lighter gas (air) and accelerated with a Machthinspthinsp1.2 planar shock wave. The Richtmyer-Meshkov instability leads to growth of the initial perturbations of the curtain and eventually to transition to turbulence. We visualize a time sequence of images of a section of the flow illuminated with a laser sheet. The SF{sub 6} is premixed with tracer (glycol fog), so the intensity of the light scattered off the curtain grows with the local density. As the curtain evolves towards a fully mixed state, real-space correlations of the density, inferred from scattered light intensity, show the emergence of a power-law behavior, indicative of transition to turbulence. {copyright} {ital 1998} {ital The American Physical Society }