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Hendrik Ranocha
Hendrik Ranocha
Numerical Mathematics, Johannes Gutenberg University Mainz, Germany
Bestätigte E-Mail-Adresse bei uni-mainz.de - Startseite
Titel
Zitiert von
Zitiert von
Jahr
Relaxation Runge--Kutta methods: Fully discrete explicit entropy-stable schemes for the compressible Euler and Navier--Stokes equations
H Ranocha, M Sayyari, L Dalcin, M Parsani, DI Ketcheson
SIAM Journal on Scientific Computing 42 (2), A612-A638, 2020
143*2020
Summation-by-parts operators for correction procedure via reconstruction
H Ranocha, P Öffner, T Sonar
Journal of Computational Physics 311, 299-328, 2016
1402016
Dynamical features and spatial structures of the plasma interaction region of 67P/Churyumov–Gerasimenko and the solar wind
C Koenders, KH Glassmeier, I Richter, H Ranocha, U Motschmann
Planetary and Space Science 105, 101-116, 2015
1012015
Comparison of some entropy conservative numerical fluxes for the Euler equations
H Ranocha
Journal of Scientific Computing 76 (1), 216-242, 2018
792018
Reinterpretation and extension of entropy correction terms for residual distribution and discontinuous Galerkin schemes: application to structure preserving discretization
R Abgrall, P Öffner, H Ranocha
Journal of Computational Physics 453, 110955, 2022
572022
Adaptive numerical simulations with Trixi. jl: A case study of Julia for scientific computing
H Ranocha, M Schlottke-Lakemper, AR Winters, E Faulhaber, J Chan, ...
arXiv preprint arXiv:2108.06476, 2021
522021
Shallow water equations: split-form, entropy stable, well-balanced, and positivity preserving numerical methods
H Ranocha
GEM-International Journal on Geomathematics 8 (1), 85-133, 2017
512017
Preventing pressure oscillations does not fix local linear stability issues of entropy-based split-form high-order schemes
H Ranocha, GJ Gassner
Communications on Applied Mathematics and Computation, 1-24, 2021
502021
Stability of artificial dissipation and modal filtering for flux reconstruction schemes using summation-by-parts operators
H Ranocha, J Glaubitz, P Öffner, T Sonar
Applied Numerical Mathematics 128, 1-23, 2018
492018
Generalised summation-by-parts operators and entropy stability of numerical methods for hyperbolic balance laws
H Ranocha
Cuvillier Verlag, 2018
452018
Optimized Runge-Kutta methods with automatic step size control for compressible computational fluid dynamics
H Ranocha, L Dalcin, M Parsani, DI Ketcheson
Communications on Applied Mathematics and Computation 4 (4), 1191-1228, 2022
422022
A purely hyperbolic discontinuous Galerkin approach for self-gravitating gas dynamics
M Schlottke-Lakemper, AR Winters, H Ranocha, GJ Gassner
Journal of Computational Physics 442, 110467, 2021
422021
On the robustness and performance of entropy stable collocated discontinuous Galerkin methods
D Rojas, R Boukharfane, L Dalcin, DCDR Fernández, H Ranocha, ...
Journal of Computational Physics 426, 109891, 2021
41*2021
Extended skew-symmetric form for summation-by-parts operators and varying Jacobians
H Ranocha, P Öffner, T Sonar
Journal of Computational Physics 342, 13-28, 2017
412017
General relaxation methods for initial-value problems with application to multistep schemes
H Ranocha, L Lóczi, DI Ketcheson
Numerische Mathematik 146 (4), 875-906, 2020
402020
On strong stability of explicit Runge–Kutta methods for nonlinear semibounded operators
H Ranocha
IMA Journal of Numerical Analysis 41 (1), 654-682, 2021
372021
Fully discrete explicit locally entropy-stable schemes for the compressible Euler and Navier–Stokes equations
H Ranocha, L Dalcin, M Parsani
Computers & Mathematics with Applications 80 (5), 1343-1359, 2020
372020
Stability of correction procedure via reconstruction with summation-by-parts operators for Burgers' equation using a polynomial chaos approach
P Öffner, J Glaubitz, H Ranocha
ESAIM: Mathematical Modelling and Numerical Analysis 52 (6), 2215-2245, 2018
372018
Stability of Explicit Runge–Kutta Schemes
H Ranocha, P Öffner
Journal of Scientific Computing 75 (2), 1040-1056, 2018
372018
Relaxation runge–kutta methods for hamiltonian problems
H Ranocha, DI Ketcheson
Journal of Scientific Computing 84 (1), 17, 2020
34*2020
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