| Shock tube determination of ignition delay times in full-blend and surrogate fuel mixtures BM Gauthier, DF Davidson, RK Hanson Combustion and Flame 139 (4), 300-311, 2004 | 749 | 2004 |
| A high-temperature chemical kinetic model of n-alkane (up to n-dodecane), cyclohexane, and methyl-, ethyl-, n-propyl and n-butyl-cyclohexane oxidation at high temperatures H Wang, E Dames, B Sirjean, DA Sheen, R Tangko, A Violi, JYW Lai, ... JetSurF version 2 (2), 19, 2010 | 437 | 2010 |
| An improved H2/O2 mechanism based on recent shock tube/laser absorption measurements Z Hong, DF Davidson, RK Hanson Combustion and Flame 158 (4), 633-644, 2011 | 436 | 2011 |
| A physics-based approach to modeling real-fuel combustion chemistry-I. Evidence from experiments, and thermodynamic, chemical kinetic and statistical considerations H Wang, R Xu, K Wang, CT Bowman, RK Hanson, DF Davidson, ... Combustion and Flame 193, 502-519, 2018 | 396 | 2018 |
| Kinetics modeling of shock-induced ignition in low-dilution CH4/O2 mixtures at high pressures and intermediate temperatures EL Petersen, DF Davidson, RK Hanson Combustion and flame 117 (1-2), 272-290, 1999 | 361 | 1999 |
| Jet fuel ignition delay times: Shock tube experiments over wide conditions and surrogate model predictions SS Vasu, DF Davidson, RK Hanson Combustion and flame 152 (1-2), 125-143, 2008 | 357 | 2008 |
| An experimental and modeling study of propene oxidation. Part 2: Ignition delay time and flame speed measurements SM Burke, U Burke, R Mc Donagh, O Mathieu, I Osorio, C Keesee, ... Combustion and Flame 162 (2), 296-314, 2015 | 355 | 2015 |
| Recent advances in laser absorption and shock tube methods for studies of combustion chemistry RK Hanson, DF Davidson Progress in Energy and Combustion Science 44, 103-114, 2014 | 335 | 2014 |
| A physics-based approach to modeling real-fuel combustion chemistry–II. Reaction kinetic models of jet and rocket fuels R Xu, K Wang, S Banerjee, J Shao, T Parise, Y Zhu, S Wang, A Movaghar, ... Combustion and Flame 193, 520-537, 2018 | 330 | 2018 |
| Shock tube ignition measurements of iso-octane/air and toluene/air at high pressures DF Davidson, BM Gauthier, RK Hanson Proceedings of the Combustion Institute 30 (1), 1175-1182, 2005 | 322 | 2005 |
| Interpreting shock tube ignition data DF Davidson, RK Hanson International journal of chemical kinetics 36 (9), 510-523, 2004 | 306 | 2004 |
| Study of the high-temperature autoignition of n-alkane/O/Ar mixtures DC Horning, DF Davidson, RK Hanson Journal of propulsion and Power 18 (2), 363-371, 2002 | 288 | 2002 |
| n-Dodecane oxidation at high-pressures: Measurements of ignition delay times and OH concentration time-histories SS Vasu, DF Davidson, Z Hong, V Vasudevan, RK Hanson Proceedings of the Combustion Institute 32 (1), 173-180, 2009 | 273 | 2009 |
| A pyrolysis mechanism for ammonia DF Davidson, K Kohse‐Höinghaus, AY Chang, RK Hanson International journal of chemical kinetics 22 (5), 513-535, 1990 | 244 | 1990 |
| Experimental study and modeling of shock tube ignition delay times for hydrogen–oxygen–argon mixtures at low temperatures GA Pang, DF Davidson, RK Hanson Proceedings of the combustion institute 32 (1), 181-188, 2009 | 234 | 2009 |
| Reduced kinetics mechanisms for ram accelerator combustion EL Petersen, RK Hanson Journal of Propulsion and power 15 (4), 591-600, 1999 | 226 | 1999 |
| GRI-Mech 2. 11 CT Bowman http://www. me. berkeley. edu/gri_mech/, 1995 | 212 | 1995 |
| A new shock tube study of the H+ O2→ OH+ O reaction rate using tunable diode laser absorption of H2O near 2.5 μm Z Hong, DF Davidson, EA Barbour, RK Hanson Proceedings of the Combustion Institute 33 (1), 309-316, 2011 | 204 | 2011 |
| CO concentration and temperature sensor for combustion gases using quantum-cascade laser absorption near 4.7 μm W Ren, A Farooq, DF Davidson, RK Hanson Applied Physics B 107, 849-860, 2012 | 198 | 2012 |
| Ignition delay times of Ram accelerator CH/O/diluent mixtures EL Petersen, DF Davidson, RK Hanson Journal of Propulsion and Power 15 (1), 82-91, 1999 | 182 | 1999 |
