Spaeth T, Popp MA, Hoffmann-Vogel R (2020)
Publication Type: Journal article
Publication year: 2020
Book Volume: 124
Journal Issue: 1
DOI: 10.1103/PhysRevLett.124.016101
We analyze topographic scanning force microscopy images together with Kelvin probe images obtained on Pb islands and on the wetting layer on Si(111) for variable annealing times. Within the wetting layer we observe negatively charged Si-rich areas. We show evidence that these Si-rich areas result from islands that have disappeared by coarsening. We argue that the islands are located on Si-rich areas inside the wetting layer such that the Pb/Si interface of the islands is in line with the top of the wetting layer rather than with its interface to the substrate. We propose that the Pb island heights are one atomic layer smaller than previously believed. For the quantum size effect bilayer oscillations of the work function observed in this system, we conclude that for film thicknesses below 9 atomic layers large values of the work function correspond to even numbers of monolayers instead of odd ones. The atomically precise island height is important to understand ultrafast "explosive" island growth in this system.
APA:
Spaeth, T., Popp, M.A., & Hoffmann-Vogel, R. (2020). Film Thickness of Pb Islands on the Si(111) Surface. Physical Review Letters, 124(1). https://doi.org/10.1103/PhysRevLett.124.016101
MLA:
Spaeth, Th., Matthias Albert Popp, and R. Hoffmann-Vogel. "Film Thickness of Pb Islands on the Si(111) Surface." Physical Review Letters 124.1 (2020).
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