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New self-similar solutions for the unsteady one-dimensional expansion of a gas into a vacuum
29
Citations
6
References
1985
Year
Rarefied FlowCompressible FlowEngineeringPhysicsFluid MechanicsUnsteady ExpansionApplied PhysicsBasic Plasma PhysicHyperbolic Conservation LawNew Self-similar SolutionsGas DynamicPlasma PhysicsThermodynamicsUnsteady One-dimensional ExpansionSupersonic RarefactionNonlinear Hyperbolic ProblemConstant Self-similar CoordinateSupersonic Combustion
New simple self-similar solutions for the unsteady expansion of a gas into a vacuum are found. They describe supersonic rarefaction in cylindrical and spherical symmetry for an arbitrary adiabatic index. An inner boundary exists at a constant self-similar coordinate. In the asymptotic region a universal isothermal density law is given which depends only on geometry. Important applications lie in the field of laser-generated plasmas.
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