Abstract
The transfer-excitation process in O 8++H 2 collisions is studied at high impact energies using an independent event model. The transfer-excitation probability is expressed as a product of a capture probability from H 2 ( P C), leaving the H 2 + in its ground state, and an excitation probability ( P E) of the residual target to a dissociative state. P C is evaluated in the Continuum Distorted Wave-Eikonal Final State (CDW-EFS) model and P E is calculated in the first Born approximation (FBA). The differential cross-sections are studied as a function of the molecular orientation and the interference patterns obtained are compared with the available experimental data.
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