Spectral Methods for Uncertainty Quantification, Scientific Computation Series Vol. 19 OP Le Maître, OM Knio Springer-Verlag, Berlin, 2011 | 1402* | 2011 |

Numerical challenges in the use of polynomial chaos representations for stochastic processes BJ Debusschere, HN Najm, PP Pébay, OM Knio, RG Ghanem, ... SIAM journal on scientific computing 26 (2), 698-719, 2004 | 514 | 2004 |

Uncertainty propagation using Wiener–Haar expansions OP Le Maıtre, OM Knio, HN Najm, RG Ghanem Journal of computational Physics 197 (1), 28-57, 2004 | 495 | 2004 |

A stochastic projection method for fluid flow. I. Basic formulation OP Le Matre, O Knio, HN Najm, RG Ghanem Journal of computational Physics 173 (2), 481-511, 2001 | 404 | 2001 |

Multi-resolution analysis of Wiener-type uncertainty propagation schemes OP Le Maıtre, HN Najm, RG Ghanem, OM Knio Journal of Computational Physics 197 (2), 502-531, 2004 | 399 | 2004 |

A stochastic projection method for fluid flow: II. Random process OP Le Maıtre, MT Reagan, HN Najm, RG Ghanem, OM Knio Journal of computational Physics 181 (1), 9-44, 2002 | 376 | 2002 |

Uncertainty quantification in reacting-flow simulations through non-intrusive spectral projection MT Reagana, HN Najm, RG Ghanem, OM Knio Combustion and Flame 132 (3), 545-555, 2003 | 332 | 2003 |

A semi-implicit numerical scheme for reacting flow: I. stiff chemistry HN Najm, PS Wyckoff, OM Knio Journal of Computational Physics 143 (2), 381-402, 1998 | 287 | 1998 |

Uncertainty propagation in CFD using polynomial chaos decomposition OM Knio, OP Le Maitre Fluid dynamics research 38 (9), 616, 2006 | 283 | 2006 |

Joining of stainless-steel specimens with nanostructured Al/Ni foils J Wang, E Besnoin, A Duckham, SJ Spey, ME Reiss, OM Knio, TP Weihs Journal of applied physics 95 (1), 248-256, 2004 | 241 | 2004 |

Room-temperature soldering with nanostructured foils J Wang, E Besnoin, A Duckham, SJ Spey, ME Reiss, OM Knio, M Powers, ... Applied physics letters 83 (19), 3987-3989, 2003 | 235 | 2003 |

Reactive nanostructured foil used as a heat source for joining titanium A Duckham, SJ Spey, J Wang, ME Reiss, TP Weihs, E Besnoin, OM Knio Journal of Applied Physics 96 (4), 2336-2342, 2004 | 211 | 2004 |

SPH modelling of water waves RA Dalrymple, O Knio Coastal dynamics' 01, 779-787, 2001 | 211 | 2001 |

A semi-implicit numerical scheme for reacting flow: II. Stiff, operator-split formulation OM Knio, HN Najm, PS Wyckoff Journal of Computational Physics 154 (2), 428-467, 1999 | 202 | 1999 |

Numerical study of a three-dimensional vortex method OM Knio, AF Ghoniem Journal of Computational Physics 86 (1), 75-106, 1990 | 160 | 1990 |

Effect of varying bilayer spacing distribution on reaction heat and velocity in reactive Al/Ni multilayers R Knepper, MR Snyder, G Fritz, K Fisher, OM Knio, TP Weihs Journal of Applied Physics 105 (8), 083504, 2009 | 157 | 2009 |

Effect of reactant and product melting on self-propagating reactions in multilayer foils E Besnoin, S Cerutti, OM Knio, TP Weihs Journal of Applied Physics 92 (9), 5474-5481, 2002 | 147 | 2002 |

Investigating the effect of applied pressure on reactive multilayer foil joining J Wang, E Besnoin, OM Knio, TP Weihs Acta Materialia 52 (18), 5265-5274, 2004 | 131 | 2004 |

A study of flame observables in premixed methane-air flames HN Najm, OM Knio, PH Paul, PS Wyckoff Combustion Science and Technology 140 (1-6), 369-403, 1998 | 122 | 1998 |

Numerical simulation of a thermodynamic refrigerator A Worlikar, OM Knio, R Klein ESAIM: Proceedings 1, 363-375, 1996 | 116* | 1996 |