On the use of immersed boundary methods for shock/obstacle interactions A Chaudhuri, A Hadjadj, A Chinnayya Journal of Computational Physics 230 (5), 1731-1748, 2011 | 193 | 2011 |

Modelling detonation waves in heterogeneous energetic materials A Chinnayya, E Daniel, R Saurel Journal of Computational Physics 196 (2), 490-538, 2004 | 170 | 2004 |

A well-balanced numerical scheme for the approximation of the shallow-water equations with topography: the resonance phenomenon A Chinnayya, AY LeRoux, N Seguin Int. J. Finite 1 (1), 33, 2004 | 145 | 2004 |

Modelling detonation waves in condensed energetic materials: Multiphase CJ conditions and multidimensional computations F Petitpas, R Saurel, E Franquet, A Chinnayya Shock waves 19, 377-401, 2009 | 101 | 2009 |

Blast wave mitigation by dry aqueous foams E Del Prete, A Chinnayya, L Domergue, A Hadjadj, JF Haas Shock waves 23 (1), 39-53, 2013 | 88 | 2013 |

A computational study of the interaction of gaseous detonations with a compressible layer M Reynaud, F Virot, A Chinnayya Physics of Fluids 29 (5), 2017 | 85 | 2017 |

Modelling compressible dense and dilute two-phase flows R Saurel, A Chinnayya, Q Carmouze Physics of fluids 29 (6), 2017 | 65 | 2017 |

Pressure relaxation procedures for multiphase compressible flows MH Lallemand, A Chinnayya, O Le Metayer International journal for numerical methods in fluids 49 (1), 1-56, 2005 | 65 | 2005 |

Numerical study of compressible mixing layers using high-order WENO schemes A Chaudhuri, A Hadjadj, A Chinnayya, S Palerm Journal of Scientific Computing 47, 170-197, 2011 | 61 | 2011 |

Macro-mechanical modelling of blast wave mitigation in foams. Part I: review of available experiments and models A Britan, H Shapiro, M Liverts, G Ben-Dor, A Chinnayya, A Hadjadj Shock Waves 23, 5-23, 2013 | 55 | 2013 |

Numerical analysis of the mean structure of gaseous detonation with dilute water spray H Watanabe, A Matsuo, A Chinnayya, K Matsuoka, A Kawasaki, ... Journal of Fluid Mechanics 887, A4, 2020 | 52 | 2020 |

Numerical study of shock propagation and attenuation in narrow tubes including friction and heat losses D Ngomo, A Chaudhuri, A Chinnayya, A Hadjadj Computers & Fluids 39 (9), 1711-1721, 2010 | 45 | 2010 |

Computational study of detonation wave propagation in narrow channels A Chinnayya, A Hadjadj, D Ngomo Physics of Fluids 25 (3), 2013 | 44 | 2013 |

Mean structure of one-dimensional unstable detonations with friction A Sow, A Chinnayya, A Hadjadj Journal of Fluid Mechanics 743, 503-533, 2014 | 42 | 2014 |

Influence of the chemical modeling on the quenching limits of gaseous detonation waves confined by an inert layer S Taileb, J Melguizo-Gavilanes, A Chinnayya Combustion and Flame 218, 247-259, 2020 | 40 | 2020 |

Shock waves in sprays: numerical study of secondary atomization and experimental comparison A Chauvin, E Daniel, A Chinnayya, J Massoni, G Jourdan Shock waves 26, 403-415, 2016 | 39 | 2016 |

A new general Riemann solver for the shallow-water equations with friction and topography A Chinnayya, AY Le Roux preprint, 1999 | 37 | 1999 |

Ethylene–air detonation in water spray G Jarsalé, F Virot, A Chinnayya Shock Waves 26 (5), 561-572, 2016 | 33 | 2016 |

Application of the dynamic model of Saeman to an industrial rotary kiln incinerator: Numerical and experimental results LG Ndiaye, S Caillat, A Chinnayya, D Gambier, B Baudoin Waste management 30 (7), 1188-1195, 2010 | 33 | 2010 |

On the viscous boundary layer of weakly unstable detonations in narrow channels A Sow, A Chinnayya, A Hadjadj Computers & Fluids 179, 449-458, 2019 | 30 | 2019 |