Abstract

We present the first photoelectron results for hollow-atom - hollow-ion decay paths of triply excited lithium, in which the hollow lithium atoms decay via hollow and then to ions. The high-resolution data, obtained at the 9.01 beamline of the Advanced Light Source at Berkeley, provide considerable insight into the decay pattern of the various hollow lithium resonances. Tracking the secondary Auger decays as functions of the incident photon energy provides new data on triply excited resonances. The results compare favourably with recent advanced R-matrix calculations. Detection of the individual Auger decay lines also provides information on the energies and widths of a number of doubly excited levels of the ion.