摘要
The vector correlations in the reaction F+H2 (v =0-3, j =0-3)→ HF(v', j')+H are investigated using the quasi- classical trajectory method on the Stark-Werner potential energy surface at a collision energy of 1.0eV. The potential distribution P(θr) to angles between k and j', the distribution P(Фr) to dihedral angles, denoting k - k' - j' correlation and the polarization-dependent generalized differential cross sections, are calculated. The effect of reagent vibrational and rotational excitation on the F+H2 reaction is discussed in detail The results suggest that the different vibrational and rotational quantum states of H2 have different influences on the product polarization.
The vector correlations in the reaction F+H2 (v =0-3, j =0-3)→ HF(v', j')+H are investigated using the quasi- classical trajectory method on the Stark-Werner potential energy surface at a collision energy of 1.0eV. The potential distribution P(θr) to angles between k and j', the distribution P(Фr) to dihedral angles, denoting k - k' - j' correlation and the polarization-dependent generalized differential cross sections, are calculated. The effect of reagent vibrational and rotational excitation on the F+H2 reaction is discussed in detail The results suggest that the different vibrational and rotational quantum states of H2 have different influences on the product polarization.
