Theoretical studies of reactions in a laser field: F(2P3/2, 2P1/2) + H2+ ħω (0.469 eV)

In this work we studied the collinear F(\*P,$ + Hz system in a strong CO2 laser field. It was found that the tiajecror) surface hopping method (TSHM) yields entirely different results than the exact quantum-mechanical treatment. A curvecrossing model was devised to esplain the discrepancy.

A crossed beam chemical reaction, AI(2P1/2,3/2)+ O2(X 3~g )..., AIO(X 2~ +)+ O(3P0,1,2) was investigated by fluorescence imaging techniques. Multiplex detection of speeds and quantum states of both reactants and products has been implemented. The two spin-orbit states of AI atoms display distinctive

The c~ern~~~r~i~c~ce~t intcr~ction of Xef3i' energies ranging up to 70 kJ mol" z,e) artd BrC'N 1x1s been studicd under crossed-beam conditiorls et collision . The CNfR \* X) horuscencc spectrum, the excitation function for its production and the tluorcscence pnlnrisationor rather its absence \_ IWJC

## Abstract Time‐resolved investigations of the atomic resonance fluorescence Sr(5^3^P~1~ → 5^1^S~0~) and the molecular chemiluminescence from SrCl(A^2^Π~1/2,3/2~, B^2^Σ^+^ → X^2^Σ^+^) are reported following the reaction of the electronically excited strontium atom, Sr(5s5p(^3^P~J~)), 1.807 eV abov

The first examples of g 1 -complexes of 1,2,4-triphospholes are reported in which the ring acts as a 2e and a 4e donor.