Momentum transfer cross sections for electron-C$_{\mathrm{2}}$H$_{\mathrm{4}}$ scattering

Momentum transfer cross sections for electron-atom/ molecule collision are important in various fieldss including those of physics of gaseous discharge, plasma physics and also useful in the study of transport properties of electrons in gases. Specially, the conductivity of plasma electrons depends on the electron ion and electron neutral momentum transfer cross sections. An attempt is made to calculate the momentum transfer cross sections for the electron impact ionization of the C$_{\mathrm{2}}$H$_{\mathrm{4}}$ molecule in the energy range from ionization threshold to 2 keV using [1], Q$_{\mathrm{i}}$(E,$\theta )$, the differential cross sections as an major input evaluated by employing a semiempirical formulation based on the Bethe and M\"{o}llor cross sections [2-3]. The present results substantiate a reasonable reliability as in comparison with the elastic cross sectional data. \textbf{References: } [1]. R. Panajotovic, \textit{J. Phys. B: At. Mol. Opt. Phys.} \textbf{36 }(2003) 1615. [2] S.Pal \textit{et al}., \textit{Rad. Phys. Chem.} \textbf{173} (2020) 108877. [3] S.Pal \textit{et al.}, \textit{J. Phys. Chem}. \textbf{A 123} (2019) 4314.