Adaptive low-rank approximation of collocation matrices M Bebendorf, S Rjasanow Computing 70, 1-24, 2003 | 730 | 2003 |

The fast solution of boundary integral equations S Rjasanow, O Steinbach Springer Science & Business Media, 2007 | 449 | 2007 |

The adaptive cross-approximation technique for the 3D boundary-element method S Kurz, O Rain, S Rjasanow IEEE transactions on Magnetics 38 (2), 421-424, 2002 | 313 | 2002 |

Stationary patterns of coherence and incoherence in two-dimensional arrays of non-locally-coupled phase oscillators OE Omel'chenko, M Wolfrum, S Yanchuk, YL Maistrenko, O Sudakov Physical Review E—Statistical, Nonlinear, and Soft Matter Physics 85 (3 …, 2012 | 193* | 2012 |

Novel formulation of nonlocal electrostatics A Hildebrandt, R Blossey, S Rjasanow, O Kohlbacher, HP Lenhof Physical review letters 93 (10), 108104, 2004 | 126 | 2004 |

Stochastic numerics for the Boltzmann equation S Rjasanow, W Wagner Springer, 2005 | 124 | 2005 |

Fast deterministic method of solving the Boltzmann equation for hard spheres AV Bobylev, S Rjasanow European Journal of Mechanics-B/Fluids 18 (5), 869-887, 1999 | 122 | 1999 |

A stochastic weighted particle method for the Boltzmann equation S Rjasanow, W Wagner Journal of Computational Physics 124 (2), 243-253, 1996 | 109 | 1996 |

Difference scheme for the Boltzmann equation based on fast Fourier transform A Bobylev, S Rjasanow | 108 | 1996 |

Higher order BEM-based FEM on polygonal meshes S Rjasanow, S Weißer SIAM Journal on Numerical Analysis 50 (5), 2357-2378, 2012 | 96 | 2012 |

Electrostatic potentials of proteins in water: a structured continuum approach A Hildebrandt, R Blossey, S Rjasanow, O Kohlbacher, HP Lenhof Bioinformatics 23 (2), e99-e103, 2007 | 82 | 2007 |

Adaptive cross approximation of dense matrices S Rjasanow Int. Association Boundary Element Methods Conf., IABEM, 28-30, 2002 | 81 | 2002 |

Numerical solution of the Boltzmann equation on the uniform grid I Ibragimov, S Rjasanow Computing 69, 163-186, 2002 | 73 | 2002 |

Comparison between different approaches for fast and efficient 3-D BEM computations A Buchau, WM Rucker, O Rain, V Rischmuller, S Kurz, S Rjasanow IEEE transactions on magnetics 39 (3), 1107-1110, 2003 | 65 | 2003 |

Reduction of the number of particles in the stochastic weighted particle method for the Boltzmann equation S Rjasanow, T Schreiber, W Wagner Journal of Computational Physics 145 (1), 382-405, 1998 | 60 | 1998 |

Effective algorithms with circulant-block matrices S Rjasanow Linear Algebra and its applications 202, 55-69, 1994 | 59 | 1994 |

Galerkin–Petrov approach for the Boltzmann equation IM Gamba, S Rjasanow Journal of Computational Physics 366, 341-365, 2018 | 45 | 2018 |

FEM with Trefftz trial functions on polyhedral elements S Rjasanow, S Weißer Journal of computational and applied mathematics 263, 202-217, 2014 | 41 | 2014 |

Numerical solution of the Boltzmann equation using a fully conservative difference scheme based on the fast Fourier transform AV Bobylev, S Rjasanow Transport Theory and Statistical Physics 29 (3-5), 289-310, 2000 | 40 | 2000 |

Central limit theorems for law-invariant coherent risk measures D Belomestny, V Krätschmer Journal of Applied Probability 49 (1), 1-21, 2012 | 37 | 2012 |