Topic
Shock wave
About: Shock wave is a research topic. Over the lifetime, 36184 publications have been published within this topic receiving 635848 citations. The topic is also known as: Shock waves & shockwave.
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TL;DR: In this article, the transverse jet in supersonic crossflows has been summarized systematically from four aspects, namely single injection, multiport injection, interaction between jet and vortex generator, and interaction between the jet and shock wave.
216 citations
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TL;DR: In this paper, it was shown that a continuous solution of the differential equations can be approximated by a sequence of smooth initial functions, and the time of breakdown of each succeeding smooth wave will approach the initial instant, so that no limit exists which could be termed propagation of the initial discontinuity.
Abstract: Introduction The physical problem of the propagation of small disturbances (sound waves) corresponds to linearization of the equations in the appropriate mathematical formulation. In an inviscid fluid this leads to plane waves which can be either compressive or rarefactive and which propagate at a constant speed (the sound speed) which is a property of the medium. Since differential equations inherently assume the differentiability of solutions, the propagation of discontinuous wave fronts requires special treatment. This is accomplished by the simple expedient of approximating an initially discontinuous wave front by a sequence of continuous initial functions. The corresponding sequence of continuous solutions of the differential equations is observed to converge to a discontinuous wave front propagating at the same sound speed. This serves to extend the manifold of solutions of the differential equations to include discontinuities which propagate unaltered whether they are compressive or rarefactive. If dissipation is introduced into the mathematical formulation, it is observed that initial discontinuities are wiped out, and all disturbances tend to broaden with time. On the other hand, it is a classical result that the propagation of non-dissipative waves of finite amplitude is no longer symmetric, compressive fronts tending to steepen and rarefactive ones to broaden. In particular, a compressive front will steepen until it attains a vertical slope, after which it becomes multiple-valued and can no longer represent a physical quantity. Furthermore, if it is attempted to approximate an initially discontinuous compressive wave by a sequence of smooth initial functions, the time of breakdown of each succeeding smooth wave will approach the initial instant, so that no limit exists which could be termed propagation of the initial discontinuity. By contrast, successive approximations of this sort do converge if the initial discontinuity is rarefactive, but it is found that the initial discontinuity is immediately wiped out and propagates as a broadening rarefaction wave. 1
215 citations
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TL;DR: In this paper, a high Mach number shock with parameters typical of the earth's bow shock was simulated using a hybrid (particle ions, fluid electrons) code and the simulations reproduce the observed ion reflection and overshoots in the magnetic field and density.
Abstract: Simulations of a high Mach number shock with parameters typical of the earth's bow shock have been performed using a hybrid (particle ions, fluid electrons) code. The simulations reproduce the observed ion reflection and overshoots in the magnetic field and density. These features are shown to be closely associated with ion gyration.
215 citations
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TL;DR: In this paper, two types of core configurations, with identical areal density, were subjected to the shock wave loading, and the results showed that configuration 1 outperformed configuration 2 in regards to their blast resistance.
214 citations
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TL;DR: In this paper, a new definition of a δ -shock wave type solution for a class of systems of conservation laws in the one-dimensional case was introduced, and the weak asymptotics method developed by the authors was used to construct formulas describing the propagation and interaction of δ-shock waves.
214 citations