Numerical study of the effect of secondary electron emission on the sheath characteristics in <i>q</i>‐non‐extensive plasma
Aziza Asserghine, Abdelhak Missaoui, Morad El Kaouini, Hassan Chatei
Abstract
Abstract In this paper, a plasma sheath containing primary electrons, cold positive ions, and secondary electrons is studied using a one‐dimensional fluid model in which the primary electrons are described by q ‐non‐extensive distribution according to the Tsallis statistics. Based on the Sagdeev potential method and the current balance relation, a modified sheath criterion, and floating potential are established theoretically. The effect of secondary electron emission on q ‐non‐extensive plasma sheath characteristics have been numerically examined. A significant change is observed in the quantities characterizing the non‐extensive plasma sheath with the presence of the secondary electrons. It is found that the sheath properties with super‐extensive distribution and sub‐extensive distribution are different compared with plasma sheath with Maxwell distribution .