Grain growth for astrophysics with Discontinuous Galerkin schemes [IMA]

http://arxiv.org/abs/2011.12298


Depending on their sizes, dust grains store more or less charges, catalyse more or less chemical reactions, intercept more or less photons and stick more or less efficiently to form embryos of planets. Hence the need for an accurate treatment of dust coagulation and fragmentation in numerical modelling. However, existing algorithms for solving the coagulation equation are over-diffusive in the conditions of 3D simulations. We address this challenge by developing a high-order solver based on the Discontinuous Galerkin method. This algorithm conserves mass to machine precision and allows to compute accurately the growth of dust grains over several orders of magnitude in size with a very limited number of dust bins.

Read this paper on arXiv…

M. Lombart and G. Laibe
Thu, 26 Nov 20
5/65

Comments: 17 pages, 22 figures, Accepted for publication in MNRAS