Centroidal Voronoi tessellations: Applications and algorithms Q Du, V Faber, M Gunzburger SIAM review 41 (4), 637-676, 1999 | 2546 | 1999 |

Finite element methods for viscous incompressible flows: a guide to theory, practice, and algorithms MD Gunzburger Elsevier, 2012 | 1214 | 2012 |

Boundary conditions for the numerical solution of elliptic equations in exterior regions A Bayliss, M Gunzburger, E Turkel SIAM Journal on Applied Mathematics 42 (2), 430-451, 1982 | 823 | 1982 |

Survey of multifidelity methods in uncertainty propagation, inference, and optimization B Peherstorfer, K Willcox, M Gunzburger Siam Review 60 (3), 550-591, 2018 | 721 | 2018 |

Least-squares finite element methods PB Bochev, MD Gunzburger Springer Science & Business Media, 2009 | 617 | 2009 |

Analysis and approximation of nonlocal diffusion problems with volume constraints Q Du, M Gunzburger, RB Lehoucq, K Zhou SIAM review 54 (4), 667-696, 2012 | 612 | 2012 |

Analysis and approximation of the Ginzburg–Landau model of superconductivity Q Du, MD Gunzburger, JS Peterson Siam Review 34 (1), 54-81, 1992 | 521 | 1992 |

Stabilization of low-order mixed finite elements for the Stokes equations PB Bochev, CR Dohrmann, MD Gunzburger SIAM Journal on Numerical Analysis 44 (1), 82-101, 2006 | 495 | 2006 |

A nonlocal vector calculus, nonlocal volume-constrained problems, and nonlocal balance laws Q Du, M Gunzburger, RB Lehoucq, K Zhou Mathematical Models and Methods in Applied Sciences 23 (03), 493-540, 2013 | 460 | 2013 |

Perspectives in flow control and optimization MD Gunzburger Society for Industrial and Applied Mathematics, 2002 | 420 | 2002 |

Finite element methods of least-squares type PB Bochev, MD Gunzburger SIAM review 40 (4), 789-837, 1998 | 393 | 1998 |

POD and CVT-based reduced-order modeling of Navier–Stokes flows J Burkardt, M Gunzburger, HC Lee Computer methods in applied mechanics and engineering 196 (1-3), 337-355, 2006 | 337 | 2006 |

On the existence, uniqueness, and finite element approximation of solutions of the equations of stationary, incompressible magnetohydrodynamics MD Gunzburger, AJ Meir, JS Peterson Mathematics of Computation 56 (194), 523-563, 1991 | 307 | 1991 |

Constrained centroidal Voronoi tessellations for surfaces Q Du, MD Gunzburger, L Ju SIAM Journal on Scientific Computing 24 (5), 1488-1506, 2003 | 294 | 2003 |

Continuous and discontinuous finite element methods for a peridynamics model of mechanics X Chen, M Gunzburger Computer Methods in Applied Mechanics and Engineering 200 (9-12), 1237-1250, 2011 | 264 | 2011 |

Coupled Stokes-Darcy model with Beavers-Joseph interface boundary condition Y Cao, M Gunzburger, F Hua, X Wang Communications in Mathematical Sciences 8 (1), 1-25, 2010 | 241 | 2010 |

Probabilistic methods for centroidal Voronoi tessellations and their parallel implementations L Ju, Q Du, M Gunzburger Parallel Computing 28 (10), 1477-1500, 2002 | 241 | 2002 |

Stochastic finite element methods for partial differential equations with random input data MD Gunzburger, CG Webster, G Zhang Acta Numerica 23, 521-650, 2014 | 238 | 2014 |

Analysis and finite element approximation of optimal control problems for the stationary Navier-Stokes equations with Dirichlet controls MD Gunzburger, LS Hou, TP Svobodny ESAIM: Mathematical Modelling and Numerical Analysis 25 (6), 711-748, 1991 | 227 | 1991 |

Grid generation and optimization based on centroidal Voronoi tessellations Q Du, M Gunzburger Applied mathematics and computation 133 (2-3), 591-607, 2002 | 224 | 2002 |