Publikation: Atomic discreteness and the nature of structural equilibrium in conductance histograms of electromigrated Cu nanocontacts
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Physical Review B. 2017, 95(23), 235418. ISSN 2469-9950. eISSN 2469-9969. Available under: doi: 10.1103/PhysRevB.95.235418
Zusammenfassung
We investigate the histograms of conductance values obtained during controlled electromigration thinning of Cu thin films. We focus on the question whether the most frequently observed conductance values, apparent as peaks in conductance histograms, can be attributed to the atomic structure of the wire. To this end we calculate the Fourier transform of the conductance histograms. We find all the frequencies matching the highly symmetric crystallographic directions of fcc-Cu. In addition, there are other frequencies explainable by oxidation and possibly formation of hcp-Cu. With these structures we can explain all peaks occurring in the Fourier transform within the relevant range. The results remain the same if only a third of the samples are included. By comparing our results to the ones available in the literature on work-hardened nanowires we find indications that even at low temperatures of the environment, metallic nanocontacts could show enhanced electromigration at low current densities due to defects enhancing electron scattering.
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PFENDER-SIEDLE, Robert, Julia HAUSER, Regina HOFFMANN-VOGEL, 2017. Atomic discreteness and the nature of structural equilibrium in conductance histograms of electromigrated Cu nanocontacts. In: Physical Review B. 2017, 95(23), 235418. ISSN 2469-9950. eISSN 2469-9969. Available under: doi: 10.1103/PhysRevB.95.235418BibTex
@article{PfenderSiedle2017-09-21T11:49:01ZAtomi-45283,
year={2017},
doi={10.1103/PhysRevB.95.235418},
title={Atomic discreteness and the nature of structural equilibrium in conductance histograms of electromigrated Cu nanocontacts},
number={23},
volume={95},
issn={2469-9950},
journal={Physical Review B},
author={Pfender-Siedle, Robert and Hauser, Julia and Hoffmann-Vogel, Regina},
note={Article Number: 235418}
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<dcterms:abstract xml:lang="eng">We investigate the histograms of conductance values obtained during controlled electromigration thinning of Cu thin films. We focus on the question whether the most frequently observed conductance values, apparent as peaks in conductance histograms, can be attributed to the atomic structure of the wire. To this end we calculate the Fourier transform of the conductance histograms. We find all the frequencies matching the highly symmetric crystallographic directions of fcc-Cu. In addition, there are other frequencies explainable by oxidation and possibly formation of hcp-Cu. With these structures we can explain all peaks occurring in the Fourier transform within the relevant range. The results remain the same if only a third of the samples are included. By comparing our results to the ones available in the literature on work-hardened nanowires we find indications that even at low temperatures of the environment, metallic nanocontacts could show enhanced electromigration at low current densities due to defects enhancing electron scattering.</dcterms:abstract>
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