Theory of satellite excitations in inner shell X-ray photoelectron spectra of nickel and copper compounds

Satellite structure to one side of the 4f photoelectron lines of a number of thorium compounds has been investigated. The origin of these and similar lines observed in uranium compounds is discussed together with those recorded near the 3d phoioekron signals of lanthanide compounds.

hlulttplc scattcrmg Xa calculatrons of the elrctrontc structure of several Ianth.mide iluortdss are performed. It is shoan that thu model IS useful for a quahtatw undcrstandmg ot the features oi tnner shell photoclcctron spectra of these compounds. \* As a referee kindly pointed out, Werthctm et ai.

The extra peak. located at LX 13.6 eV on the high-bilidin~~ner~y side of the cure levels cf titenium in rutile, : anafase and barium titanate, probably arises from a shake-up process involving an O(2p) -, Ti(4s) transition. :

## XF'S spectra of a number of paramagnetic Co compounds are studied and the correlation bctween the intensity of thc Co 2~3,~ satellite and the mapitude of its magnetic moment is shown. A new approach is put forward to e?rpIti the experimental data.

Exatiination of the various &r&ions liable to contribute to stetite profiles in X-ray photoelectron spectra of 3d-transition metal compounds is intended Lo show the inadequacy of the monopble selection rule which has been wed to account for the app.zrent conelztion between satellite!; and pammagneti

Satellite structure has been obsezved at 8 eV and 12 eV below the main metal 2p peaks for compounds of Sc3+ and Ti4+. These futures are attributed to charge transfer "shake-up" transitions (tag + tzg and eg -+ eg respectively). The 8 eV satellites are only found in sulphate complexes of Se3' \_ This