Rydberg Screening in Core Level Photoemission of Ammonia Adsorbed on Nickel Surfaces

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, , Citation K Hermann and P S Bagus 1983 Phys. Scr. 1983 113 DOI 10.1088/0031-8949/1983/T4/022

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Author affiliations

1 IBM Research Laboratoires, Monterey and Cottle Rd., San Jose, CA 95193, USA

2 Institute for Theoretical Physics, Technical University, D-3392 Clausthal and Sonder-forschungsbereich 126 Clausthal/Göttingen, West Germany

Dates

  1. Received 18 August 1982

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Abstract

The lowest empty orbitals of the ground state of free ammonia, 4a1 and 2e, are quite diffuse Rydberg-type orbitals. Thus, one might expect that involvement of these orbitals in the final hole states would not lead to additional structure in the N1s core hole photoemission spectra of the adsorbed molecule. Model calculations on NiNH3 clusters show, however, that in the presence of the N1s core hole Rydberg orbitals can lead to a screening mechanism similar to the one proposed by Schönhammer and Gunnarsson for adsorbed CO and N2. In NiNH3 the different final states are similar in intensity and are separated by 1-1.5 eV. The XPS data for the NH3/Ni (110) system show a broad asymmetric N1s peak which, from the present study, can be interpreted as a superposition of at least two peaks stemming from unscreened and Rydberg screened final states of the core hole.

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10.1088/0031-8949/1983/T4/022