Extended appearance-potential fine-structure measurements of clean and oxidized iron surfaces

15 August 1988

journal article
research article
Published by American Physical Society (APS) in Physical Review B

Vol. 38 (6) , 3711-3717
https://doi.org/10.1103/physrevb.38.3711

Abstract

We have measured the surface structure of clean and oxidized polycrystalline iron using extended-appearance potential fine structure (EAPFS), and compared the results to bulk extended x-ray-absorption fine-structure measurements on iron. Improvements in experimental techniques permitted the use of much lower incident electron currents and shorter data-acquisition times than previously necessary in EAPFS measurements, while not requiring special equipment. For the clean iron both the nearest-neighbor spacing and the second- and third-neighbor spacings, which have been measured for the first time with EAPFS, are larger than bulk values by an average of 3%. We conclude the surface is relaxed but still highly ordered. In contrast, the oxidized surface is more disordered; only the first iron-oxygen shell and the first iron-iron shell can be clearly resolved. The spacings measured indicate that the oxide structure closely resembles FeO. These results demonstrate the potential of EAPFS for the study of surface structures.

Keywords

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