Field-induced interference effects in the photodissociation of rotating diatomics: H2+

Se\eral absorption lmcs III ihe B 'T;, + N "; system at 83 nm hare been observed 151th sub-Doppler resolunon UI Hz and HD A dewlcd analysts of the hneshapes ansmg from the homogeneously predlssoclated B 'XG staies sho\\s that the hne\~ldrhs are stron& nifected by the Frank-Condon factors associated

We employ a semi-empirical model that utilizes a kinematic distribution function to calculate the rotational state population distributions of diatomic photofragments from the photodissociation of isotopically variant triatomic molecules. The numerically evaluated rotational distributions of tbe pho

A hybrid quantum/semiclassical simulation method is applied to the photodissociation dynamics of HCI in the Ar-HCI cluster. The method treats the hydrogen quantum mechanically, and the heavy atoms by semiclassical wavepackets. The dynamics of the H atoms if found to show resonances where the H atom

Anomalous lines in the ZEKE field-ionization spectrum of Hz0 are explained via a mechanism of energy redistribution between core rotation and the Rydberg electron, mediated by the Rydberg-core-dipole interaction. A quantum defect model of the interaction, involving the coupling of two closed channel

Magnetic field effects on the photodissociation reaction of triphenylphosphine at 293 K were investigated in several non-viscous homogeneous solvents by means of a nanosecond laser photolysis technique under magnetic fields of 0-1.75 T. The generated neutral radical pair of the diphenylphosphinyl an