Reference: Frenklach, M., and Bornside, D.E., 'Shock-Initiated Ignition in Methane-Propane Mixture,' (1984) Combust. Flame 56, 1

Reference: Tsuboi, T. and Wagner, H.Gg., 'Homogeneous Thermal Oxidation of Methane in Reflected Shock Waves,' (1974)15th Symposium (International) on Combustion, p. 883.

Reference: Dean, A.J., Davidson, D.F., and Hanson, R.K., 'A Shock Tube Study of Reactions of C Atoms with H2 and O2 using Excimer Photolysis of C3O2 and C Atom Atomic Resonance Absorption Spectroscopy,' (1991) J.Phys.Chem. 95, 183.

Reference: Chang, A.Y., Davidson, D.F., DiRosa, M., Hanson, R.K., and Bowman, C.T., 'Shock Tube Experiments for Development and Validation of Kinetic Models of Hydrocarbon Oxidation,' (1994) 25th Symposium (International) on Combustion, Poster 3 - 23.

Reference: Davidson, D.F., DiRosa, M., Chang, A.Y., Hanson, R.K., and Bowman, C.T., 'Shock Tube Study of Methane Decomposition Using Laser Absorption by CH3,' (1992) 24th Symposium (International) on Combustion, p. 589.

Reference: Yu, C.L., Wang, C., and Frenklach, M., 'Chemical Kinetics of Methyl Oxidation by Molecular Oxygen,' (1995) J.Phys.Chem. 99, 14377.

Reference: Egolfopolous, F.N., Cho, P., and Law, C.K., 'Laminar Flame Speeds of Methane-Air Mixtures under Reduced and Elevated Pressures,' (1989) Combust. Flame 76, 375.

Reference: Heard, D.E., Jeffries, J.B., Smith, G.P., and Crosley, D.R., 'LIF Measurements in Methane/Air Flames of Radicals Important in Prompt-NO Formation,' (1992) Combust. Flame  88, 137.