A spectroscopic study of the thermodynamic state of argon in a conical electromagnetic shock tube

## Abstract The rate coefficient for NH~2~ + CH~4~ → NH~3~ + CH~3~ (R1) has been measured in a shock tube in the temperature range 1591–2084 K using FM spectroscopy to monitor NH~2~ radicals. The measurements are combined with a calculation of the potential energy surface and canonical transition s

Atomic resonance absorption spectroscopy (ARAS) was applied to measure S atoms, behind shock waves in COS/Hz pyrolysis or CSz/Hz photolysis systems. Both the pyrolysis of COS and the photolysis CSz was used to generate the S atoms, which subsequently reacts with H2 via the reaction: The photolysis

Hydrocarbons of C 2, diluted m argon, have been pyrolysed behind incident shock waves in the range of conditions 1-12 bar pressure and 1500-2500 K temperature. The formation of carbon particles, detected both by emilion and lau, r-extinction techniques, occurred after an induction period. The effect

## Abstract Cyclohexane (cC~6~H~12~) plays an important role in the combustion of practical liquid fuels, as a major component of naphthenic compounds. Therefore, the pyrolysis of cyclohexane was investigated by measuring the formation of H‐atoms. The thermal decomposition of 1‐hexene (1‐C~6~H~12~)