Abstract
The technique of Auger-photoelectron coincidence spectroscopy (APECS) is described and illustrated with a case study of the Cu(100) 3
p and M
23VV spectra. APECS offers many advantages over the conventional singles spectroscopy such as isolating overlapping spectral features, reducing secondary electron background, and revealing new decay modes. In the coincidence Cu Auger spectra discussed here, the multiplet structure of the quasi-atomic 3
d
8 Auger final state is clearly observed, as well as different intensities for the multiplet components for the
p
1
2
and
p
3
2
transitions. Furthermore, the spectra reveal evidence for a Coster-Kronig decay channel for
3p
1
2
core holes, and illustrate that the sum of the Auger electron and photoelectron kinetic energies is conserved. Possible technical improvements that can increase the counting efficiency are also discussed.