10.1088/0953-4075/30/10/006
Cionga, A
A
Cionga
Dimou, L
L
Dimou
Faisal, Farhard
Farhard
Faisal
Differential cross sections of low-energy electron-hydrogen scattering in a CO2 laser field
IOP PUBLISHING LTD
1997
2010-04-29T13:13:59Z
2018-07-24T12:57:51Z
journal_article
https://pub.uni-bielefeld.de/record/1636823
https://pub.uni-bielefeld.de/record/1636823.json
0953-4075
Floquet close-coupling (FCC) analysis of stimulated electron-hydrogen scattering in the field of a low-frequency CO2 laser field is carried out. Results are obtained for one-, two- and three-photon absorption and emission processes in terms of the differential scattering cross sections as a function of the scattering angle. Two critical geometries are considered in which the argument of the Bessel function in the well known low-frequency;formula becomes negligibly small. It is found that the ratios of the cross sections for small-angle scattering in both geometries are many orders of magnitude larger than predicted by the low-frequency formula (LFF). The result supports an analogous finding of many orders of magnitude larger values of the cross section measured in Ar and He by Wallbank and Holmes, and confirms the failure of LFF for small-angle scattering.