Measurement of the Compton profiles of CH4 and C2H4 by high energy electron impact spectroscopy

The Compton profile of methane is measured at 4.28 and 10 degrees using high energy electron impact spectroscopy with 25 keV electrons. The 10 degree profile is found to agree with theoretical calculations through q = 5 au. Both esperimental Compton profiles and the best available theoretical profil

The successive C-H bond dissociation energies of CH,, &Hz. C2H4, and H&O (ketene) are determined using large basis sets and a high level of correlation treatment. For CHI, C2H2, and C2H4 the computed values are in excellent agreement with experiment. Using our results we recommend 107.9 +2.0 and 96.

## Abstract A detailed chemical kinetic model for homogeneous combustion of the light hydrocarbon fuels CH~4~ and C~2~H~6~ in the intermediate temperature range roughly 500–1100 K, and pressures up to 100 bar has been developed and validated experimentally. Rate constants have been obtained from cr

Charge-changing cross-sections u43, u42 and u4, of C4+ injected into CH, , C2H,, C,H, and n-C4H,, were measured in the energy range 0.7-400 eV u-'. A tandem mass spectrometer system with an ion source of the EBIS type (Mini-EBIS) and a collision cell consisting of an octupole ion beam guide was used

Formation of methyl radicals via the consecutive reactions H+C2H,+M+C2H,+M ( I ) and H+CLH,+CH,+CH3 (?a) was initiated by pulse radiolysis of IO-100 mbar Hz in the presence of ethylene. The kinetics of CH, were studied by monitoring the transient infrared absorption at the Q( 3, 3) line of the u,=O+