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Hybrid methods for radiation transport using diagonally implicit Runge-Kutta and space-time discontinuous Galerkin time integration - MaRDI portal

Hybrid methods for radiation transport using diagonally implicit Runge-Kutta and space-time discontinuous Galerkin time integration

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Publication:2311473

DOI10.1016/J.JCP.2018.09.041zbMath1416.65343OpenAlexW2896535417WikidataQ129108983 ScholiaQ129108983MaRDI QIDQ2311473

C. Kristopher Garrett, Michael M. Crockatt, Andrew J. Christlieb, Cory D. Hauck

Publication date: 10 July 2019

Published in: Journal of Computational Physics (Search for Journal in Brave)

Full work available at URL: https://doi.org/10.1016/j.jcp.2018.09.041


zbMATH Keywords

kinetic equationshybrid methodshigh-order accuracyfully implicit methods


Mathematics Subject Classification ID

Integro-partial differential equations (45K05) Finite element, Rayleigh-Ritz and Galerkin methods for initial value and initial-boundary value problems involving PDEs (65M60) Multistep, Runge-Kutta and extrapolation methods for ordinary differential equations (65L06) Finite element, Rayleigh-Ritz, Galerkin and collocation methods for ordinary differential equations (65L60) Integro-partial differential equations (35R09)


Related Items (8)

Improvements to a class of hybrid methods for radiation transport: Nyström reconstruction and defect correction methodsMachine learning moment closure models for the radiative transfer equation. I: Directly learning a gradient based closureDiagonally implicit Runge-Kutta schemes: discrete energy-balance laws and compactness propertiesMachine learning moment closure models for the radiative transfer equation. III: enforcing hyperbolicity and physical characteristic speedsMachine Learning Moment Closure Models for the Radiative Transfer Equation II: Enforcing Global Hyperbolicity in Gradient-Based ClosuresA collision-based hybrid method for the BGK equationA Hybrid Finite-Volume, Discontinuous Galerkin Discretization for the Radiative Transport EquationAnalysis of a New Implicit Solver for a Semiconductor Model


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