A Shallow Water Analogue of the Standing Accretion Shock Instability: Experimental Demonstration and Two-Dimensional Model

1); CEA Saclay (2) ICF; Fr\'ed\'eric Masset (2; Gilles Durand (1) ((1) AIM; IRFU/SAp; J\'er\^ome Guilet (3; Thierry Foglizzo (1); UNAM (3) DAMTP Cambridge)

arxiv: 1112.3448 · v1 · pith:SRGQ4QIDnew · submitted 2011-12-15 · 🌌 astro-ph.HE · physics.flu-dyn· physics.pop-ph

A Shallow Water Analogue of the Standing Accretion Shock Instability: Experimental Demonstration and Two-Dimensional Model

Thierry Foglizzo (1) , Fr\'ed\'eric Masset (2 , 1) , J\'er\^ome Guilet (3 , Gilles Durand (1) ((1) AIM , IRFU/SAp , CEA Saclay (2) ICF , UNAM (3) DAMTP Cambridge) This is my paper

classification 🌌 astro-ph.HE physics.flu-dynphysics.pop-ph

keywords analogueinstabilityshallowwateraccretionexperimenttimesastrophysical

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Despite the sphericity of the collapsing stellar core, the birth conditions of neutron stars can be highly non spherical due to a hydrodynamical instability of the shocked accretion flow. Here we report the first laboratory experiment of a shallow water analogue, based on the physics of hydraulic jumps. Both the experiment and its shallow water modeling demonstrate a robust linear instability and nonlinear properties of symmetry breaking, in a system which is one million times smaller and about hundred times slower than its astrophysical analogue.

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