Electron Transport Through the Two-Dimensional Atomic Lattice

T. Kwapinski; Z. Korczak; M. Jalochowski

arXiv:cond-mat/0510507·cond-mat.mes-hall·May 23, 2007

Electron Transport Through the Two-Dimensional Atomic Lattice

T. Kwapinski, Z. Korczak, M. Jalochowski

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TL;DR

This study investigates how Pb deposition affects electrical conductivity on a Si(111)-(6x6)Au surface, combining experimental measurements with a 2D lattice theoretical model to understand the conductance changes at low coverage.

Contribution

It introduces a combined experimental and theoretical approach to analyze conductance changes caused by Pb deposition on a 2D atomic lattice surface.

Findings

01

Pb deposition causes significant conductance change at low coverage

02

Experimental results align with the 2D square lattice model

03

Conductance sensitivity to atomic-scale modifications

Abstract

The electrical conductivity changes of the Si(111)-(6x6)Au surface at early stage of Pb deposition was studied experimentally and theoretically as a function of coverage. Pb deposition onto a Si(111)-(6x6)Au surface induce strong change of the conductance even at a low coverage ( $< 1$ monolayer). The experimental results are analyzed using the theoretical model of two dimensional (2D) square atomic lattice.

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Taxonomy

TopicsSurface and Thin Film Phenomena · Advanced Materials Characterization Techniques · Electron and X-Ray Spectroscopy Techniques