Differential cross sections for excitation of H2 by low-energy electron impact

Differential cross sections for excitation of H2 by low-energy electron impact

Experimental and theoretical differential cross sections (DCS) for the electron-impact excitation of molecular hydrogen to the B S+u 1 sc Pu 3 sa S+g 3 sC Pu 1 sand the E(F) S+g 1 states are presented at incident energies near to threshold. The experimental DCSs were taken at incident energies of 14...

Full description

Bibliographic Details
Main Authors: Hargreaves, L., Bhari, S., Adjari, B., Liu, X., Laher, R., Zammit, M., Savage, J., Fursa, Dmitry, Bray, Igor, Khakoo, M.
Format: Journal Article
Published: Institute of Physics Publishing Ltd. 2017
Online Access:http://hdl.handle.net/20.500.11937/59413
Description
Summary:Experimental and theoretical differential cross sections (DCS) for the electron-impact excitation of molecular hydrogen to the B S+u 1 sc Pu 3 sa S+g 3 sC Pu 1 sand the E(F) S+g 1 states are presented at incident energies near to threshold. The experimental DCSs were taken at incident energies of 14, 15, 16 and 17.5 eV and for scattering angles from 10° to 130°. The theoretical DCSs are from the convergent close-coupling method which has recently successfully modeled differential electron scattering from H2 when compared with available experiment at energies of 17.5 eV and above.

Similar Items