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Hypersonic similarity law for steady compressible Euler flows past slender bodies within the framework of Radon measure solutions

Published 23 Aug 2025 in math.AP | (2508.16909v1)

Abstract: In this paper, we establish a mathematical theory on statement and validation of the hypersonic similarity law within the framework of Radon measure solutions of steady compressible Euler equations. We consider two scenarios: (1) two-dimensional steady non-isentropic compressible Euler flows past an infinitely long slender curved wedge; (2) three-dimensional steady non-isentropic compressible Euler flows past an infinitely long axisymmetric cone. It turns out that, for the hypersonic flow passing through a slender body with tiny slenderness $\tau$, if the parameter $K\doteq M_{\infty}\tau$ is fixed, by taking $\tau \to 0$ (i.e., the Mach number of the upcoming flow $M_{\infty} \to \infty$), the flow field structures (after scaling) no longer depend on the body's shape and the Mach number $M_{\infty}$ independently, but only on $K$ and adiabatic index $\gamma$ of the polytropic gas. Mathematically, for non-isentropic Euler flows, we find a new system of hypersonic small-disturbance equations to describe steady compressible hypersonic flows passing slender bodies. We demonstrate that as $ \tau \to0$, under suitable non-dimensional scalings, the Radon measure solutions of the original problems of hypersonic flow passing bodies converge to those of corresponding hypersonic small-disturbance problems. The explicit forms of the Radon measure solutions derived for the two scenarios effectively simplify the convergence analysis.

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