CO2 laser induced sparks in molecular gases

in CO,(u, mode) is studied extensively in CO,, CO: + ' 4 N, , CO, t ' 'N, and CO,+ Hc by USC of the laser induced fluorescence technique coverin, e the entire range of concentration (O-100 per cent) in the temperature range ZOO-500°K. While the data on composition yield better average values for the

## Abstract The multiple photon absorption and decomposition of ethanol irradiated by pulsed 9P18 infrared radiation (1048.7 cm^−1^) from a TEA CO~2~ laser has been studied in the fluence range 15 to 5 J cm^−2^. The absorption cross‐section is pressure‐dependent due to rapid collisional rotational

The pressure and laser-power dependence of the product distributions in the TEA CO2 laser induced decomposition of trichloroethylene were studied. At moderate pressures molecular elimination of HCI to give CCkCCI vi.r intcrmolecuIar enemy transfer was found to be the major reaction path. At low pres

## Reactions m hqurd dlcyclopentadiene were mduced by CO2 laser pulses. Heterogeneous sensltlzation was achieved by means of suspended graphite or a breakdown plasma at the surface The dlstriiutlon of products can be explamed in terms of tigh temperatures occurnng in the reaction rolume for a very