Add to ORKGWe report calculated differential, integral, and momentum-transfer cross sections for rotational excitation of CH_4 by electron impact in the 3–20-eV energy range. These cross sections were derived from fixed-nuclei scattering amplitudes obtained using the Schwinger multichannel method. Our results represent the first rotational excitation cross sections obtained for a polyatomic molecule using entirely ab initio procedures. The cross sections agree well with those of earlier model-potential calculations. A comparison of these calculated cross sections with available experimental data is in general encouraging, but some discrepancies remain
This paper reports results for rotational excitation of H2O and H2S molecules by electron impact. It...
New cross sections for the rotational excitation of H+3 by electrons are calculated ab initio at low...
New cross sections for the rotational excitation of H-3(+) by electrons are calculated ab initio at ...
We report calculated differential, integral, and momentum-transfer cross sections for rotational exc...
We report differential and integral cross sections for rotational excitation of XH(4) molecules (X: ...
This paper reports results for rotational excitation of H2O and H2S molecules by electron impact. It...
This paper reports results for rotational excitation of H2O and H2S molecules by electron impact. It...
This paper reports results for rotational excitation of H2O and H2S molecules by electron impact. It...
In this work we present a theoretical study on electron scattering by both polar and nonpolar polyat...
In this work we present a theoretical study on electron scattering by both polar and nonpolar polyat...
In this work we present a theoretical study on electron scattering by both polar and nonpolar polyat...
The anisotropic charge distribution of a molecule can easily induce a rotational transition in the m...
We report elastic (rotationally summed) and rotationally resolved cross-sections for scattering of l...
We report the first application of the Schwinger multichannel formulation to low-energy electron col...
Rotational excitation cross sections of tetrahedral and octahedral molecules caused by low energy po...
This paper reports results for rotational excitation of H2O and H2S molecules by electron impact. It...
New cross sections for the rotational excitation of H+3 by electrons are calculated ab initio at low...
New cross sections for the rotational excitation of H-3(+) by electrons are calculated ab initio at ...
We report calculated differential, integral, and momentum-transfer cross sections for rotational exc...
We report differential and integral cross sections for rotational excitation of XH(4) molecules (X: ...
This paper reports results for rotational excitation of H2O and H2S molecules by electron impact. It...
This paper reports results for rotational excitation of H2O and H2S molecules by electron impact. It...
This paper reports results for rotational excitation of H2O and H2S molecules by electron impact. It...
In this work we present a theoretical study on electron scattering by both polar and nonpolar polyat...
In this work we present a theoretical study on electron scattering by both polar and nonpolar polyat...
In this work we present a theoretical study on electron scattering by both polar and nonpolar polyat...
The anisotropic charge distribution of a molecule can easily induce a rotational transition in the m...
We report elastic (rotationally summed) and rotationally resolved cross-sections for scattering of l...
We report the first application of the Schwinger multichannel formulation to low-energy electron col...
Rotational excitation cross sections of tetrahedral and octahedral molecules caused by low energy po...
This paper reports results for rotational excitation of H2O and H2S molecules by electron impact. It...
New cross sections for the rotational excitation of H+3 by electrons are calculated ab initio at low...
New cross sections for the rotational excitation of H-3(+) by electrons are calculated ab initio at ...