Low energy electron induced chemistry for e-bromine molecule scattering

Abstract

The present study focuses on electron collision with bromine molecule, employing ab-initio scattering calculations. Using the R-matrix method, we calculated elastic and inelastic cross-sections using two different scattering models: static exchange with polarization and close-coupling. Our findings reveal total three low energy resonances for e-Br2 scattering which are primarily formed through transient negative ions. This observation is supported by dissociative electron attachment cross-section analysis, potential energy curves, and molecular orbital diagrams. Out of these three, first is at zero-energy, the electron attachment is recognized as shape-resonance and further two π* resonances as core-excited resonances. Present computation becomes more important as many cross-sections are reported as bench mark results in absence of any reported data. For instance: elastic, differential, momentum transfer, excitation and total cross-section. Comparing our results with sparse existing literature, we find good agreement.