A generic interface for parallel cell-based finite element operator application M Kronbichler, K Kormann Computers & Fluids 63, 135-147, 2012 | 211 | 2012 |

The deal. II library, version 9.0 G Alzetta, D Arndt, W Bangerth, V Boddu, B Brands, D Davydov, ... Journal of Numerical Mathematics 26 (4), 173-183, 2018 | 201 | 2018 |

GEMPIC: geometric electromagnetic particle-in-cell methods M Kraus, K Kormann, PJ Morrison, E Sonnendrücker Journal of Plasma Physics 83 (4), 905830401, 2017 | 201 | 2017 |

Fast matrix-free evaluation of discontinuous Galerkin finite element operators M Kronbichler, K Kormann ACM Transactions on Mathematical Software (TOMS) 45 (3), 1-40, 2019 | 124 | 2019 |

Accurate time propagation for the Schrödinger equation with an explicitly time-dependent Hamiltonian K Kormann, S Holmgren, HO Karlsson The Journal of chemical physics 128 (18), 2008 | 80 | 2008 |

A semi-Lagrangian Vlasov solver in tensor train format K Kormann SIAM Journal on Scientific Computing 37 (4), B613-B632, 2015 | 72 | 2015 |

ExaDG: High-order discontinuous Galerkin for the exa-scale D Arndt, N Fehn, G Kanschat, K Kormann, M Kronbichler, P Munch, ... Software for exascale computing-SPPEXA 2016-2019, 189-224, 2020 | 59 | 2020 |

Energy-conserving time propagation for a structure-preserving particle-in-cell Vlasov–Maxwell solver K Kormann, E Sonnendrücker Journal of Computational Physics 425, 109890, 2021 | 46 | 2021 |

A massively parallel semi-Lagrangian solver for the six-dimensional Vlasov–Poisson equation K Kormann, K Reuter, M Rampp The International Journal of High Performance Computing Applications 33 (5 …, 2019 | 43 | 2019 |

Stable difference methods for block-oriented adaptive grids A Nissen, K Kormann, M Grandin, K Virta Journal of Scientific Computing 65, 486-511, 2015 | 42 | 2015 |

Evaluation of performance portability frameworks for the implementation of a particle‐in‐cell code V Artigues, K Kormann, M Rampp, K Reuter Concurrency and Computation: Practice and Experience 32 (11), e5640, 2020 | 34 | 2020 |

Variational framework for structure-preserving electromagnetic particle-in-cell methods M Campos Pinto, K Kormann, E Sonnendrücker Journal of Scientific Computing 91 (2), 46, 2022 | 33 | 2022 |

Fast matrix-free discontinuous Galerkin kernels on modern computer architectures M Kronbichler, K Kormann, I Pasichnyk, M Allalen High Performance Computing: 32nd International Conference, ISC High …, 2017 | 30 | 2017 |

Geometric Particle-in-Cell Simulations of the Vlasov--Maxwell System in Curvilinear Coordinates B Perse, K Kormann, E Sonnendrücker SIAM Journal on Scientific Computing 43 (1), B194-B218, 2021 | 28 | 2021 |

Sparse grids for the Vlasov–Poisson equation K Kormann, E Sonnendrücker Sparse Grids and Applications-Stuttgart 2014, 163-190, 2016 | 28 | 2016 |

Parallel finite element operator application: Graph partitioning and coloring K Kormann, M Kronbichler 2011 IEEE Seventh International Conference on eScience, 332-339, 2011 | 28 | 2011 |

A Galerkin radial basis function method for the Schrödinger equation K Kormann, E Larsson SIAM Journal on Scientific Computing 35 (6), A2832-A2855, 2013 | 27* | 2013 |

A time-space adaptive method for the Schrödinger equation K Kormann Communications in Computational Physics 20 (1), 60-85, 2016 | 22* | 2016 |

Efficient explicit time stepping of high order discontinuous Galerkin schemes for waves S Schoeder, K Kormann, WA Wall, M Kronbichler SIAM Journal on Scientific Computing 40 (6), C803-C826, 2018 | 21 | 2018 |

A parallel low-rank solver for the six-dimensional Vlasov–Maxwell equations F Allmann-Rahn, R Grauer, K Kormann Journal of Computational Physics 469, 111562, 2022 | 18 | 2022 |