Abstract
A detailed quantum mechanical study is made of the three-dimensional tetraatom systems HZ(YH) + OX(u0) - XOH(v’j,v) + H (X = H, D). The study is limited to the case where the overall final rotational state K of the product XOH molecules is zero. The calculations are carried out using the negative imaginary arrangement decoupling potentials. The quasi-breathing-sphere approximation is employed for the reagent arrangements and the j, approximation for the product arrangements. State-to-state and state-selected cross sections are calculated for the (translational) energy range 0.1-0.7 eV.
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