General linear methods for ordinary differential equations Z Jackiewicz John Wiley & Sons, 2009 | 342 | 2009 |

Fair play as respect for the game R Butcher, A Schneider Journal of the Philosophy of Sport 25 (1), 1-22, 1998 | 292* | 1998 |

A general class of two-step Runge–Kutta methods for ordinary differential equations Z Jackiewicz, S Tracogna SIAM Journal on Numerical Analysis 32 (5), 1390-1427, 1995 | 168 | 1995 |

Spectral collocation and waveform relaxation methods for nonlinear delay partial differential equations Z Jackiewicz, B Zubik-Kowal Applied Numerical Mathematics 56 (3-4), 433-443, 2006 | 120 | 2006 |

Stability analysis of one-step methods for neutral delay-differential equations A Bellen, Z Jackiewicz, M Zennaro Numerische Mathematik 52 (6), 605-619, 1988 | 109 | 1988 |

Diagonally implicit general linear methods for ordinary differential equations JC Butcher, Z Jackiewicz BIT Numerical Mathematics 33 (3), 452-472, 1993 | 92 | 1993 |

Convergence of waveform relaxation methods for differential-algebraic systems Z Jackiewicz, M Kwapisz SIAM Journal on Numerical Analysis 33 (6), 2303-2317, 1996 | 91 | 1996 |

Implementation of diagonally implicit multistage integration methods for ordinary differential equations JC Butcher, Z Jackiewicz SIAM journal on numerical analysis 34 (6), 2119-2141, 1997 | 88 | 1997 |

Asymptotic stability analysis of θ-methods for functional differential equations Z Jackiewicz Numerische Mathematik 43 (3), 389-396, 1984 | 76 | 1984 |

Construction of diagonally implicit general linear methods of type 1 and 2 for ordinary differential equations JC Butcher, Z Jackiewicz Applied Numerical Mathematics 21 (4), 385-415, 1996 | 72 | 1996 |

Two-step runge–kutta methods Z Jackiewicz, R Renaut, A Feldstein SIAM Journal on Numerical Analysis 28 (4), 1165-1182, 1991 | 72 | 1991 |

Extrapolation-based implicit-explicit general linear methods A Cardone, Z Jackiewicz, A Sandu, H Zhang Numerical Algorithms 65, 377-399, 2014 | 71 | 2014 |

Numerical solution of a Fredholm integro-differential equation modelling neural networks Z Jackiewicz, M Rahman, BD Welfert Applied Numerical Mathematics 56 (3-4), 423-432, 2006 | 69* | 2006 |

Two-step almost collocation methods for ordinary differential equations R D’Ambrosio, M Ferro, Z Jackiewicz, B Paternoster Numerical Algorithms 53 (2), 195-217, 2010 | 66 | 2010 |

Two-step almost collocation methods for Volterra integral equations D Conte, Z Jackiewicz, B Paternoster Applied mathematics and computation 204 (2), 839-853, 2008 | 66 | 2008 |

One-step methods of any order for neutral functional differential equations Z Jackiewicz SIAM journal on numerical analysis 21 (3), 486-511, 1984 | 66 | 1984 |

Contractivity of waveform relaxation Runge–Kutta iterations and related limit methods for dissipative systems in the maximum norm A Bellen, Z Jackiewicz, M Zennaro SIAM journal on numerical analysis 31 (2), 499-523, 1994 | 64 | 1994 |

Nordsieck representation of DIMSIMs JC Butcher, P Chartier, Z Jackiewicz Numerical Algorithms 16, 209-230, 1997 | 60 | 1997 |

Highly stable implicit–explicit Runge–Kutta methods G Izzo, Z Jackiewicz Applied Numerical Mathematics 113, 71-92, 2017 | 59 | 2017 |

Existence and uniqueness of solutions of neutral delay-differential equations with state dependent delays Z Jackiewicz Funkcial. Ekvac 30 (1), 9-17, 1987 | 59 | 1987 |