Electron attachment and ‘carrier gas’ energy distribution functions

The steady electron distribution function in attaching gases can be strongly perturbed from the thermal Maxwellian or Davydov distributions. For particular cross sections, concentrations and electric fields, the steady electron distribution can be localized at high energies. A very efficient methodo

The influence of electron-electron collisions on the electron energy distribution functions in the presence of collisions of the second kind has been studied for post discharge conditions. The results show that electron-electron collisions are effective in shaping the electron energy distribution fu

Dissociative electron attachment to CF,I yields the negatively charged fragments I-, F-, CF;, and FI-. From the energetics a value of > 1.0 \* 0.2 eV is derived for the electron affinity of FL The process leading to CF; is such that at threshold all of the total excess energy appears as kinetic ener

In highly extended mesoscopic molecular networks or solid-state Ž . systems, one-electron states with an extremely complex multifractal internal structure commonly appear at intermediate length scales. It is shown that multifractality is not compatible with the concept of electron density. Physical