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arxiv: 1503.03869 · v2 · pith:YQO424FI · submitted 2015-03-12 · physics.comp-ph · astro-ph.CO· astro-ph.IM· physics.flu-dyn

Numerical solution of the non-linear Schrodinger equation using smoothed-particle hydrodynamics

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classification physics.comp-ph astro-ph.COastro-ph.IMphysics.flu-dyn
keywords numericalequationmethodcollapsingfluidhydrodynamicsnon-linearpressure
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We formulate a smoothed-particle hydrodynamics numerical method, traditionally used for the Euler equations for fluid dynamics in the context of astrophysical simulations, to solve the non-linear Schrodinger equation in the Madelung formulation. The probability density of the wavefunction is discretized into moving particles, whose properties are smoothed by a kernel function. The traditional fluid pressure is replaced by a quantum pressure tensor, for which a novel, robust discretization is found. We demonstrate our numerical method on a variety of numerical test problems involving the simple harmonic oscillator, Bose-Einstein condensates, collapsing singularities, and dark matter halos governed by the Gross-Pitaevskii-Poisson equation. Our method is conservative, applicable to unbounded domains, and is automatically adaptive in its resolution, making it well suited to study problems with collapsing solutions.

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