A discontinuous Galerkin method for the mono-energetic Fokker–Planck equation based on a spherical interior penalty formulation

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摘要

We present a new discretization of the mono-energetic Fokker–Planck equation. We build on previous work (Kópházi and Lathouwers, 2015) where we devised an angular discretization for the Boltzmann equation, allowing for both heterogeneous and anisotropic angular refinement. The angular discretization is based on a discontinuous finite element method on the unit sphere. Here we extend the methodology to include the effect of the Fokker–Planck scatter operator describing small angle particle scatter. We describe the construction of an interior penalty method on the sphere surface. Results are provided for a variety of test cases, ranging from purely angular to fully three-dimensional. The results show that the scheme can resolve highly forward-peaked flux distributions with forward-peaked scatter.

论文关键词:Discontinuous Galerkin,Fokker–Planck,Particle transport,Radiation transport,Upwinding,Interior penalty

论文评审过程:Received 16 February 2017, Revised 26 July 2017, Accepted 30 August 2017, Available online 7 September 2017, Version of Record 21 September 2017.

论文官网地址:https://doi.org/10.1016/j.cam.2017.08.019