R-matrix calculation of electron collisions with electronically excited O2 molecules

Abstract

Low-energy electron collisions with O2 molecules are studied using the fixed-bond R-matrix method. In addition to the O2 X3g- ground state, integrated cross sections are calculated for elecron collisions with the a1g and b1g+ excited states of O2 molecules. 13 target electronic states of O2 are included in the model within a valence configuration interaction representations of the target states. Elastic cross sections for the a1g and b1g+ excited states are similar to the cross sections for the X3g- ground state. As in case of excitation from the X3g- state, the O2- u resonance makes the dominant contribution to excitation cross sections from the a1g and b1g+ states. The magnitude of excitation cross sections from the a1g state to the b1g+ state is about 10 time larger than the corresponding cross sections from the X3g- to the b1g+ state. For this a1g b1g+ transition, our cross section at 4.5 eV agrees well with the available experimental value. These results should be important for models of plasma discharge chemistry which often requires cross sections between the excited electronic states of O2.

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