Penetration depth of an electric field in a semi-infinite plasma

Abstract

It is shown that the penetration of an oscillating electric field in a semi-infinite classical plasma obeys the standard exponential attenuation law e-x/λe (besides oscillations), where x is the distance from the wall and λe is the extinction length (penetration depth, attenuation length). The penetration depth is computed here explicitly; it is shown that it is of the order λe [ /(1-)]1/3vth / ω, where is the dielectric function, ω is the frequency of the field and vth=T/m is the thermal velocity (T being the temperature and m the particle (electron) mass). The result is obtained by including explicitly the contribution of the surface term.