Low to intermediate energy elastic electron scattering from dichloromethane (CH2Cl2)
Overview
Research
Identity
Additional Document Info
Other
View All
Overview
abstract
2018 IOP Publishing Ltd. We report a theoretical-experimental investigation of electron scattering by dichloromethane (CH 2 Cl 2 ) in the low- and intermediate energy ranges. Experimental elastic differential cross sections (DCS), in the incident electron energy range of 0.5-800 eV and scattering angle range of 10-130, were measured using a crossed beam relative flow technique. Integral and momentum-transfer cross sections were determined from the experimental DCS. Theoretical elastic differential, integral, and momentum-transfer, as well as grand-total, and total absorption cross sections were also calculated for impact energies ranging from 0.5 to 500 eV. A complex optical Hartree-Fock potential represented the electron-target interaction and a single-center expansion method combined with a Pad approximation was used to solve the scattering equations. Three resonances: a 2 A 1 C-Cl k resonance centered at about 3.5 eV, a 2 B 2 C-Cl k resonance centered at about 5 eV and a broad 2 A 1 C-H k resonance at about 10 eV were detected in our calculation. Further calculations of DCS were performed at an intermediate energy range of 50-800 eV, using the independent-atom model in which the atomic complex optical potential and partial-wave method were used to obtain atomic scattering amplitudes. Comparisons of our experimental and theoretical data with very recent experimental and theoretical results are made.
published proceedings
JOURNAL OF PHYSICS B-ATOMIC MOLECULAR AND OPTICAL PHYSICS
altmetric score
0.5
author list (cited authors)
Hlousek, B. A., Martin, M. F., Zawadzki, M., Khakoo, M. A., Machado, L. E., Lucchese, R. R., ... Homem, M.