Validation of the Heuristic Model for the Electron Mobility in Dense Helium Gas

Abstract

The investigation of the mobility \(μ\) of quasi-free electrons in dense, cold helium gas as a function of its density \(N\) is made difficult by the fact that a significant fraction of electrons is localized in low mobility bubbles. The measured mobility is a weighted average of the contributions of the slow electron bubbles, whose mobility is determined by hydrodynamics, and of the fast quasi-free electrons. A precise description of the fast electron mobility is thus required. In the past we have developed a heuristic model that proved succesful at rationalizing the electron mobility in argon and neon gases. In order to validate it, we have carried out new accurate %electron mobility measurements in helium gas in the temperature range 26 \, K < T < 300\,K at densities, in which the presence of localized states is negligible. The analysis of these new data confirms the validity of the model.