On the separation of initial and final state effects in photoelectron 
spectroscopy using an extension of the auger-parameter concept

Hohlneicher, George; Pulm, Harald; Freund, Hans-Joachim

doi:10.1016/0368-2048(85)80069-4

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On the separation of initial and final state effects in photoelectron spectroscopy using an extension of the auger-parameter concept

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Zitation

Hohlneicher, G., Pulm, H., & Freund, H.-J. (1985). On the separation of initial and final state effects in photoelectron spectroscopy using an extension of the auger-parameter concept. Journal of Electron Spectroscopy and Related Phenomena, 37(2), 209-224. doi:10.1016/0368-2048(85)80069-4.

Zitierlink: https://hdl.handle.net/21.11116/0000-000E-45CF-C

Zusammenfassung

First, we show that the quantity Δβ(i) = ΔE_A(kii) + 2ΔE_B(i) - ΔE_B(k) is directly related to the final state relaxation contribution ΔER(i) of the binding energy shift ΔE_B(i). ΔE_A(kii) is the kinetic energy shift of the Auger transition which corresponds to the decay of a hole state with a hole in level k into a final state with two holes in level i. The shift parameter Δβ(i), which is based on information on two binding energies, is conceptually similar to Wagner's Auger parameter. To establish the relation between Δβ(i) and ΔR(i) one needs, however, less drastic approximations than in the case of Auger parameter shifts. The only approximation necessary is the assumption that ΔR(i) is determined by coulomb contributions.

Secondly, we use Δβ (i) to analyse the experimental data of eighteen gaseous phosphorus-containing compounds obtained by Sodhi and Cavell*. It is shown that ΔR(P_2p) is strongly related to changes in the polarizability of the ligands. The initial state effects derived from our study deviate from those expected on the basis of simple electronegativity considerations.