MANY BODY THEORY FOR SPECTROSCOPIES OF Ce MIXED VALENCE COMPOUNDS

Abstract
Spectroscopic and thermodynamic properties of Ce mixed valence compounds are studied for the Anderson model. The large orbital and spin degeneracy N_f of the f-level allows us to treat 1/N_f as a small parameter. In this way exact results can be obtained for N_f = ∞ and T = 0, and even for N_f = 1 or 2 accurate results are obtained if corrections of order 1/N_f are considered. Comparison between theory and axperiment for core level X-ray photoemission spectra leads to estimates of the parameters in the model. With these parameters the model can also give a fairly good description of other spectroscopies, such as M_4,5XAS, 4f PES and BIS. The values of the parameters place the known Ce intermetallics in or close to the Kondo limit. In this limit the f-spectral function has a narrow Kondo resonance close to the Fermi energy, which has been seen spectroscopically for some of the systems. This resonance is related to a large density of low-lying excitations, which explains the large low temperature susceptibility and specific heat of these systems.