Absolute reactive cross sections for the reaction H+O2→OH+O

The nascent state distributions of OH produced in the reaction H+H20+0H+H2 were probed by fast atom-laser-induced fluorescence experiments. Translationally hot H atoms were formed by photolysis of HI at 250 and 270 nm leading to H+HrO c.m. collision energies E of 176 and 143 kJ/mol. With a calibrat

Using translationally hot H atoms generated via the photolysis of HBr at 193 nm, we have investigated the dynamics of the reaction H + D20--,OD + H D at a center-of-mass energy of Ec.m. = 2.53 eV. The nascent OD (v= 0) rotational distribution was probed by laser-induced fluorescence. We found that o

Photolysis of HCI with an ArF excimer laser at 193 nm yields H atoms with well-defined high translational energy ( I .86 eV) which react with CO2 to form OH and CO. The product OH radicals are detected by laser-induced fluorescence (LIF). From LIF spectra the nascent OH vibrational, rotational and t

The technique of her flash photolysis-resonance fhorescence has been employed to study the kinetics of the reaction OH + HI+ -Hz0 + Br over the temperature ranse 249-416 K\_ The rate conshnt is found to be independent of tcmpera-hue\_ A simple aberage of the results obtained at six temperatures give

Using the laser photolysis vacuum-UV laser-induced fluorescence 'pump-and-probe' technique, Doppler profiles of H and D atoms from the reaction O(1D) + HD were measured under single-collision conditions, O(aD) atoms were generated by laser photolysis of N20 at 193 nm. With a calibration method using