Downloads provided by UsageCountsElectron scattering cross section calculations for polar molecules over a broad energy range
Copyright policy ) Sanz, A G; Fuss, M C; Blanco, F; Masin, Zdenek; Gorfinkiel, Jimena D; Carelli, F; Sebastianelli, F; +2 Authors
Sanz, A G; Fuss, M C; Blanco, F; Masin, Zdenek; Gorfinkiel, Jimena D; Carelli, F; Sebastianelli, F; Gianturco, F A; GarcÃa, G;
Electron scattering cross section calculations for polar molecules over a broad energy range
We report computational integral and differential cross sections for electron scattering by two different polar molecules, HCN and pyrimidine, over a broad energy range. We employ, for low energies, either the single-centre expansion (ePOLYSCAT) or the R-matrix method, while for the higher energies we select a corrected form of the independent-atom representation (IAM-SCAR). We provide complete sets of integral electron scattering cross sections from low energies up to 10,000 eV. Our present calculated data agree well with prior experimental results.
Spain, Australia
Dipole-induced excitations, Engineering, Pyrimidine, Electron scattering, Elastic cross sections, Science and Technology Studies, HCN
Dipole-induced excitations, Engineering, Pyrimidine, Electron scattering, Elastic cross sections, Science and Technology Studies, HCN
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