Four-point measurements using a multi-tip scanning tunneling microscope (STM) are carried out in order to determine surface and step conductivities on Si(111) surfaces. In a first step, distance-dependent four-point measurements in the linear configuration are used in combination with an analytical three-layer model for charge transport to disentangle the 2D surface conductivity from non-surface contributions. A termination of the Si(111) surface with either Bi or H results in the two limiting cases of a pure 2D or 3D conductance, respectively. In order to further disentangle the surface conductivity of the step-free surface from the contribution due to atomic steps, a square four-probe configuration is applied as function of the rotation angle. In total this combined approach leads to an atomic step conductivity of σstep=(29±9)Ω−1m−1 and to a step-free surface conductivity of σsurf=(9±2)⋅10−6Ω−1/□ for the Si(111)-(7×7) surface.
@article{arxiv.1505.01288,
title = {Surface and Step Conductivities on Si(111) Surfaces},
author = {Sven Just and Marcus Blab and Stefan Korte and Vasily Cherepanov and Helmut Soltner and Bert Voigtländer},
journal= {arXiv preprint arXiv:1505.01288},
year = {2016}
}
Comments
Main paper: 5 pages, 4 figures, Supplemental material: 6 pages, 3 figures. The Supplemental Material contains details on the sample preparation and measurement procedure, additional experimental results for Si(111) samples with different doping levels, and the description of the three-layer conductance model