Absolute total cross section measurements for electron scattering on benzene molecules

The absolute total cross section for electron-CH3Br scattering has been measured in a wide energy range (from 0.4 to 250 eV) by the linear transmission method. At the lowest investigated energies the cross section increases rapidly when the energy decreases. A shallow minimum of the total cross sect

Measurements are made on water vapour in the energy range 0.5-80 eV to give absolute total electron-scattering cross sections. The total cross section function obtained increases sharply at energies below 3 eV and shows a structureless, very broad flat maximum around 9 eV. The results presented here

Measurements made on H2S in the energy range 1.3-70 eV give total electron-scattering cross sections which exhiiit two distinct features: a shoulder at about 2.3 eV and a very broad hump centered at 9 eV with a maximum value of 40 X 10m20 m2. These results are in agreement with those calculated by J

Absolute total cross sections for electron scattering from nitrogen dioxide have been measured in a linear transmission experiment from 0.6 to 220 eV. A minimum cross section occurs around 3 eV followed by a very broad maximum near 10 eV, with monotonic decrease at higher energies.

Absolute electron-scattering total cross sections for methyl iodide have been measured at impact energies between 0.5 and 220 eV using a linear transmission method. The cross section increases rapidly as the energy becomes smaller than 1.5 eV, has a minimum (50X lO-zo m') around 2.5 eV followed by a