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Freeze-out of perturbation growth of single-mode helium–air interface through reflected shock in Richtmyer–Meshkov flows

Chenren Chen, Yinuo Xing, He Wang, Zhigang Zhai, Xisheng Luo

2023Journal of Fluid Mechanics18 citationsDOIOpen Access PDF

Abstract

‘Freeze-out’ of amplitude growth, i.e. the amplitude growth stagnation of a shocked helium–air interface, is realized through a reflected shock, which produces baroclinic vorticity of the opposite sign to that deposited by the first shock. Theoretically, a model is constructed to calculate the relations among the initial parameters for achieving freeze-out. In particular, if the amplitude growth is within the linear regime at the arrival of the reflected shock, the time interval between the impacts of two shock waves is linearly related to the initial perturbation wavelength, and is independent of the initial perturbation amplitude. Experimentally, an air–SF $_6$ (or air–argon) plane interface is adopted to produce a weak reflected shock. Seven experimental runs with specific initial conditions are examined. For all cases, freeze-out is achieved after the reflected shock impact under the designed conditions.

Topics & Concepts

AmplitudeShock waveMechanicsPerturbation (astronomy)PhysicsBaroclinityShock (circulatory)Shock tubeVorticityMoving shockRichtmyer–Meshkov instabilityVortexOpticsMedicineInternal medicineQuantum mechanicsLaser-Plasma Interactions and DiagnosticsFluid Dynamics and Turbulent FlowsComputational Fluid Dynamics and Aerodynamics