Valence bands of silver halides determined by X-ray and UV photoemission

The widely di †ering properties of amorphous carbon Ðlms originate from the di †erent s-p hybridization schemes possibly occurring in the C-C bond. For the study of such systems, an approach is suggested that provides direct access to these di †erent types of s-p hybridization via a separate mapping

X-ray photoemission spectra of rhe lead halide valence bands are reported..Assignments based on B point charge model unambii;uously show the Pb 6s level to occur several volts below the top of the valence band. Detailed studies of the excitonic transitions near the fundamental gap in the lead halid

The X-ray and W photoemission valence band spectra of NiO are interpreted using the molecular orbital theory for the NiOpcluster and the sudden approsimation (monopole selection rules). They exhibit the effects of crystal field splitting, multiplet splitting, electron shake-up (0 2pe$' -Ni 3dea). re

Valence-band photoemission and S L X-ray emission spectroscopies have been performed for CuIr 2 S 4 in order to investigate the electronic structure of the valence band. A structure around 1 eV below the Fermi level in the photoemission spectrum consists of Ir 5d as well as S 3p by taking into accou