Differential and integral cross sections for electron elastic scattering by ammonia for incident energies ranging from 10 eV to 20 keV

Authors

  • Hocine Aouchiche Mouloud Mammeri University

DOI:

https://doi.org/10.31349/RevMexFis.64.498

Keywords:

electron-ammonia interaction, elastic scattering, correlation-polarization and exchange potentials, differential and integral cross sections

Abstract

Differential and integral cross sections for elastic scattering of electron by NH3 molecule are investigated for the energy ranging from 10 eV to 20 keV.  The calculations are carried out in the framework of partial wave formalism describing the target molecule by means of one center molecular Hartree-Fock functions.  A spherical complex optical potential used includes a static part – obtained here numerically from quantum calculation – and fine effects like correlation, polarization and exchange potentials. The results obtained in this model point out clearly the role played by the exchange and the correlation-polarization contributions in particular at lower scattering angles and lower incident energies. Both differential and integral cross sections obtained are compared with a large set of experimental data available in the literature and well agreement is found throughout the scattering angles and whole energy range investigated here.

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Published

2018-08-31

How to Cite

[1]
H. Aouchiche, “Differential and integral cross sections for electron elastic scattering by ammonia for incident energies ranging from 10 eV to 20 keV”, Rev. Mex. Fís., vol. 64, no. 5 Sept-Oct, pp. 498–506, Aug. 2018.

Issue

Section

04 Atomic and Molecular Physics