Kinetic study of the H + IBr reaction: rate constants, branching ratio and yields of excited halogen atoms

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

We present a kinetic study of the reaction Rb + N20 ---, Rb + N20 kNro by direct spectroscopic monitoring of ground state atomic rubidium in the time domain. Rb(52Sm/2) was generated by the pulsed irradiation of rubidium halide vapors at elevated temperatures in the presence of low concentrations of

Direct ab initio dynamic calculations are performed on the reactions of atomic hydrogen with GeD(n)(CH(3))(4-n) (n = 1-4) over the temperature range 200-2000 K at the PMP4SDTQ/6-311 +G(3df,2p)//MP2/6-31 +G(d) (for n = 2-4) and G2//MP2/6-31 +G(d) (for n = 1) levels. The corresponding k(H)/k(D) ratios

## Abstract The primary quantum yield of H‐atom production in the pulsed‐laser photolysis of hydrazine vapor, N~2~H~4~ + hν → H + N~2~H~3~, was measured to be (1.01 ± 0.12) at 193 nm relative to HBr photolysis, and (1.06 ± 0.16) at 222 nm relative to 248‐nm N~2~H~4~ photolysis, in excess He buffer