Abstract:
The characteristics of travelling perturbations of density in a hypersonic shock layer on a flat plate for the Mach number
$\mathrm{M}_\infty=21$ and unit Reynolds number $\mathrm{Re}_1=6\cdot10^5$ ì$^{-1}$ were experimentally studied by the method of electron-beam fluorescence. The perturbations were generated by interaction of the shock layer behind an oblique gas-dynamic whistle and the leading edge of the plate. The cases of unsteady and quasi-steady interaction were considered. In both cases, vortex disturbances of finite amplitude were generated. The measurements were performed at the fundamental frequency $F= 0,6\cdot10^{-4}$ and at the harmonic; the streamwise phase velocities, the growth rates of the disturbances, and the angles of wave propagation were obtained. The measurement results are compared with some experimental data for subsonic flows, some particular results of the linear stability theory for compressible flows, and the results obtained on the basis of a simple model of the nonlinear stage of disturbance evolution in a hypersonic boundary layer.
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