| 1 - 1 |
A dedication to Professor Ronald K. Hanson
Kohse-Hoinghaus K, Wang H |
| 2 - 5 |
Scientific accomplishments and research avenues of Professor Ronald Hanson
Davidson DF, Jeffries JB, Oehlschlaeger MA, Strand CL |
| 6 - 13 |
A shock-tube study of the N2O + M reversible arrow N-2 + O + M (M = Ar) rate constant using N2O laser absorption near 4.6 mu m
Mulvihill CR, Alturaifi SA, Petersen EL |
| 14 - 23 |
Reactions of propyl radicals: A shock tube-VUV photoionization mass spectrometry study
Banyon C, Sikes T, Tranter RS |
| 24 - 32 |
An experimental investigation of flame and autoignition behavior of propane
Burnett MA, Wooldridge MS |
| 33 - 42 |
Dual-camera high-speed imaging of the ignition modes of ethanol, methanol and n-hexane in a shock tube
Figueroa-Labastida M, Badra J, Farooq A |
| 43 - 53 |
Reflected shock-initiated ignition probed via simultaneous lateral and endwall high-speed imaging with a transparent, cylindrical test-section
Ninnemann E, Pryor O, Barak S, Neupane S, Loparo Z, Laich A, Vasu SS |
| 54 - 65 |
Competitive oxidation of methane and C-2 hydrocarbons discerned by isotopic labeling and laser absorption spectroscopy of CO isotopologues in shock-heated mixtures
Pineda DI, Bendana FA, Spearrin RM |
| 66 - 72 |
Impact of vitiation on flow reactor studies of jet fuel combustion chemistry
Wang K, Xu R, Bowman CT, Wang H |
| 73 - 82 |
Chemical kinetic model reduction through species-targeted global sensitivity analysis (STGSA)
Lin SQ, Xie M, Wang JX, Liang WK, Law CK, Zhou WX, Yang B |
| 83 - 93 |
Experimental characterization of n-heptane low-temperature oxidation products including keto-hydroperoxides and highly oxygenated organic molecules (HOMs)
Belhadj N, Benoit R, Dagaut P, Lailliau M |
| 94 - 107 |
Inhibiting and promoting effects of NO on dimethyl ether and dimethoxymethane oxidation in a plug-flow reactor
Zhang H, Schmitt S, Ruwe L, Kohse-Hoinghaus K |
| 108 - 125 |
Experimental and modeling study of the oxidation of F-24 jet fuel, and its mixture with an iso-paraffinic synthetic jet fuel, ATJ
Guzman J, Brezinsky K |
| 126 - 135 |
A physics-based approach to modeling real-fuel combustion chemistry - VII. Relationship between speciation measurement and reaction model accuracy
Xu R, Wang H |
| 136 - 149 |
Temporally and spatially resolved X-ray densitometry in a shock tube
Shaik RA, Kastengren AL, Tranter RS, Lynch PT |
| 150 - 165 |
Reprint of: Pyrolysis of ethanol studied in a new high-repetition-rate shock tube coupled to synchrotron-based double imaging photoelectron/photoion coincidence spectroscopy
Nagaraju S, Tranter RS, Ardila FEC, Abid S, Lynch PT, Garcia GA, Gil JF, Nahon L, Chaumeix N, Comandini A |
| 166 - 176 |
Measurements of pressure broadening of N-2 in the anisotropic tensor component of spontaneous Raman spectra
Haller TW, Varghese PL |
| 177 - 182 |
Shock wave and modelling study of the UV spectra of perfluorocarbon iodides and perfluorocarbon radicals
Cobos CJ, Hintzer K, Solter L, Tellbach E, Thaler A, Troe J |
| 183 - 195 |
Time-domain modelling and thermometry of the CH4 nu(1) Q-branch using hybrid femtosecond/picosecond coherent anti-Stokes Raman scattering
Chen TY, Kliewer CJ, Goldberg BM, Kolemen E, Ju YG |
| 196 - 208 |
Vibrational energy transfer kinetics for quantitative species diagnostics using infrared laser-induced fluorescence
Song ZH, Chao X |
| 209 - 218 |
Lean fuel detection with nanosecond-gated laser-induced breakdown spectroscopy
McGann B, Ombrello TM, Peterson DM, Hassan E, Hammack SD, Carter CD, Lee T, Do H |
| 219 - 224 |
Time-resolved polarization lock-in filtering for background suppression in Raman spectroscopy of biomass pyrolysis
Kim H, Gong MX, Kristensson E, Ehn A, Alden M, Brackmann C |
| 225 - 232 |
In situ imaging of 4D fire events in a ground vehicle testbed using customized fiber-based endoscopes
Windle CI, Anderson J, Boyd J, Homan B, Korivi V, Ma L |
| 233 - 238 |
Combustion-relevant temperature imaging with scattering referenced aerosol phosphor thermometry applied to Eu:BAM
Witkowski D, Herzog JM, Rothamer DA |
| 239 - 247 |
Volumetric laser absorption imaging of temperature, CO and CO2 in laminar flames using 3D masked Tikhonov regularization
Wei CY, Schwarm KK, Pineda DI, Spearrin RM |
| 248 - 259 |
Quantitative measurement of atomic hydrogen in low-pressure methane flames using two-photon LIF calibrated by krypton
Lamoureux N, Foo KK, Desgroux P |
| 260 - 272 |
Multi-line SiO fluorescence imaging in the flame synthesis of silica nanoparticles from SiCl4
El Moussawi A, Endres T, Peukert S, Zabeti S, Dreier T, Fikri M, Schulz C |
| 273 - 294 |
Combustion for aircraft propulsion: Progress in advanced laser-based diagnostics on high-pressure kerosene/air flames produced with low-NOx fuel injection systems
Legros S, Brunet C, Domingo-Alvarez P, Malbois P, Salaun E, Godard G, Caceres M, Barviau B, Cabot G, Renou B, Lartigue G, Moureau V, Puggelli S, Richard S, Boukhalfa MA, Grischar F |
