It is shown that in hollow cathodes with a very small-diameter orifice, operating at a low current, the plasma density peaks inside the orifice, and the cathode is heated primarily by plasma bombardment in the orifice and along the orifice plate. As the orifice diameter increases, the peak plasma density moves upstream of the orifice, and ion and electron bombardment heat both the orifice plate and the insert. In hollow cathodes with a large-diameter orifice the plasma extends along much of the insert, the plasma density peaks well within the insert region, and the cathode is heated primarily by ion bombardment of the insert
