Vibrational excitation of methyl chloride by low energy electron impact

Murtadha Khakoo; Ahmad Saakamini; Leigh Hargreaves; Carl Winstead; Vince McKoy

Vibrational excitation of methyl chloride by low energy electron impact

POSTER

Abstract

Differential scattering cross sections for low energy vibrational excitation of methyl chloride are presented. The experimental and theoretical (Schwinger Multi-Channel model) results comprise 5 vibrational excitation energy loss features of methyl chloride. The incident electron energy range is from 1eV to 15eV and scattering angles from 10 to 130 degrees. Comparisons with other available results will be presented.

^*Funded by a National Science Foundation Collaborative Research Grant to CSUF and Caltech

Authors

Murtadha Khakoo
- Cal State Univ- Fullerton
Ahmad Saakamini
- Cal State Univ- Fullerton
Leigh Hargreaves
- Cal State Univ- Fullerton
Carl Winstead
- California Institute of Technology
- Caltech
Vince McKoy
- Caltech