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Dust and gas mixtures with multiple grain species - a one-fluid approach

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arxiv 1407.3569 v1 pith:GK7WLPAL submitted 2014-07-14 astro-ph.EP

Dust and gas mixtures with multiple grain species - a one-fluid approach

classification astro-ph.EP
keywords dustphasesapproachdiscsdragevolutionformalismgrains
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We derive the single-fluid evolution equations describing a mixture made of a gas phase and an arbitrary number of dust phases, generalising the approach developed in Laibe & Price (2014a). A generalisation for continuous dust distributions as well as analytic approximations for strong drag regimes are also provided. This formalism lays the foundation for numeri- cal simulations of dust populations in a wide range of astrophysical systems while avoiding limitations associated with a multiple-fluid treatment. The usefulness of the formalism is illustrated on a series of analytical problems, namely the dustybox, dustyshock and dustywave problems as well as the radial drift of grains and the streaming instability in protoplanetary discs. We find physical effects specific to the presence of several dust phases and multiple drag timescales, including non-monotonic evolution of the differential velocity between phases and increased efficiency of the linear growth of the streaming instability. Interestingly, it is found that under certain conditions, large grains can migrate outwards in protoplanetary discs. This may explain the presence of small pebbles at several hundreds of astronomical units from their central star.

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  1. Full one-fluid dusty gas with multiple grain species in SPH

    astro-ph.EP 2026-06 accept novelty 6.0

    Presents and benchmarks an SPH code for the full one-fluid dusty gas with multiple species that conserves mass, momentum, angular momentum and energy while recovering analytic solutions where the terminal velocity app...