Data-parallel line relaxation method for the Navier-Stokes equations D Bose, GV Candler, MJ Wright AIAA Journal 36 (9), 1603-1609, 1998 | 752 | 1998 |

Review of chemical-kinetic problems of future NASA missions, II: Mars entries C Park, JT Howe, RL Jaffe, GV Candler Journal of Thermophysics and Heat transfer 8 (1), 9-22, 1994 | 706 | 1994 |

Computation of weakly ionized hypersonic flows in thermochemical nonequilibrium GV Candler, RW MacCormack Journal of Thermophysics and Heat Transfer 5 (3), 266-273, 1991 | 487 | 1991 |

The solution of the Navier-Stokes equations using Gauss-Seidel line relaxation RW MacCormack, GV Candler Computers & Fluids 17 (1), 135-150, 1989 | 416 | 1989 |

Subgrid-scale models for compressible large-eddy simulations M Pino Martín, U Piomelli, GV Candler Theoretical and Computational Fluid Dynamics 13, 361-376, 2000 | 378 | 2000 |

Predicting failure of the continuum fluid equations in transitional hypersonic flows ID Boyd, G Chen, GV Candler Physics of Fluids 7 (1), 210-219, 1995 | 378 | 1995 |

A fully discrete, kinetic energy consistent finite-volume scheme for compressible flows PK Subbareddy, GV Candler Journal of Computational Physics 228 (5), 1347-1364, 2009 | 290 | 2009 |

The computation of hypersonic ionized flows in chemical and thermal nonequilibrium GV Candler, RW MacCormack AIAA Paper 88-0511, 1988 | 276 | 1988 |

Recommended collision integrals for transport property computations Part 1: air species MJ Wright, D Bose, GE Palmer, E Levin, G Candler, M Capitelli, F Blottner, ... AIAA Journal 43 (12), 2558-2564, 2005 | 267 | 2005 |

Development of the US3D code for advanced compressible and reacting flow simulations GV Candler, HB Johnson, I Nompelis, VM Gidzak, PK Subbareddy, ... 53rd AIAA Aerospace Sciences Meeting, 1893, 2015 | 247 | 2015 |

Thermal rate constants of the N2+ O→ NO+ N reaction using ab initio 3A ″and 3A′ potential energy surfaces D Bose, GV Candler The Journal of Chemical Physics 104 (8), 2825-2833, 1996 | 228 | 1996 |

An improved potential energy surface and multi-temperature quasiclassical trajectory calculations of N2+ N2 dissociation reactions JD Bender, P Valentini, I Nompelis, Y Paukku, Z Varga, DG Truhlar, ... The Journal of chemical physics 143 (5), 2015 | 213 | 2015 |

Development of a hybrid unstructured implicit solver for the simulation of reacting flows over complex geometries I Nompelis, T Drayna, G Candler 34th AIAA Fluid Dynamics Conference and Exhibit, 2227, 2004 | 212 | 2004 |

Rate effects in hypersonic flows GV Candler Annual Review of Fluid Mechanics 51, 379-402, 2019 | 209 | 2019 |

A parallel unstructured implicit solver for hypersonic reacting flow simulation I Nompelis, TW Drayna, GV Candler Parallel Computational Fluid Dynamics 2005, 389-395, 2006 | 200 | 2006 |

Direct simulation methods for low-speed microchannel flows C Cai, ID Boyd, J Fan, GV Candler Journal of Thermophysics and Heat Transfer 14 (3), 368-378, 2000 | 189 | 2000 |

Numerical study of hypersonic reacting boundary layer transition on cones HB Johnson, TG Seipp, GV Candler Physics of Fluids 10 (10), 2676-2685, 1998 | 187 | 1998 |

Thermal rate constants of the O+ N→ NO+ O reaction based on the A′ and A′ potential-energy surfaces D Bose, GV Candler The Journal of Chemical Physics 107 (16), 6136-6145, 1997 | 178 | 1997 |

Modeling shock unsteadiness in shock/turbulence interaction K Sinha, K Mahesh, GV Candler Physics of Fluids 15 (8), 2290-2297, 2003 | 171 | 2003 |

Hypersonic boundary layer stability analysis using PSE-Chem H Johnson, G Candler 35th AIAA fluid dynamics conference and exhibit, 5023, 2005 | 169 | 2005 |