White, Ronald DouglasMcEachran, RobertRobson, RobertElford, M.T.Bartschat, Klaus R2015-12-130022-3727http://hdl.handle.net/1885/77461In this paper we present details of the following: (a) ab initia calculations of a set of electron impact cross sections for atomic Zn; and (b) transport coefficients and distribution functions for an electron swarm in Zn vapour, obtained from a multiterm solution of Boltzmann's equation using these cross sections, over a range of reduced fields, E/N, and gas temperatures of practical interest. Our work has been motivated, in part, by recent suggestions that zinc could be an attractive replacement for mercury in making high-pressure gas discharge lamps more environment-friendly (Born M 2001 J. Phys. D: Appl. Phys. 34 909; Born M 2002 Plasma Sources Sci. Technol. 11 A55). Current models of such lamps require a knowledge of the plasma electrical conductivity, which can be calculated from the (e, Zn) cross sections and mobility coefficients presented in this paper.Cross sections and transport coefficients for electrons in Zn vapour200410.1088/0022-3727/37/22/0212015-12-11