Break Voltage of the 1G0 Contact of Noble Metals and Alloys

We have measured the break voltage of the 1G0 contact of Au, Ag, Cu, and AuAg alloys at room temperature in ultrahigh vacuum. Exploiting the break junction technique, we produced a 1G0 contact and broke it by applying a voltage ramp. The break voltage of each metal exhibits a broad distribution, and...

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Bibliographic Details
Published inE-journal of surface science and nanotechnology Vol. 7; pp. 891 - 897
Main Authors Miura, Daisuke, Iwata, Keiichi, Kurokawa, Shu, Sakai, Akira
Format Journal Article
LanguageEnglish
Published Tokyo The Japan Society of Vacuum and Surface Science 01.01.2009
Japan Science and Technology Agency
Subjects
AuAg Alloys
Break voltage
Noble metals
Single-atom contacts
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Summary:We have measured the break voltage of the 1G0 contact of Au, Ag, Cu, and AuAg alloys at room temperature in ultrahigh vacuum. Exploiting the break junction technique, we produced a 1G0 contact and broke it by applying a voltage ramp. The break voltage of each metal exhibits a broad distribution, and the average break voltage decreases as Au >Cu ≥ Ag, in consistent with the elemental dependence of the high-bias stability of the 1G0 contact suggested in previous experimental studies. In AuAg alloys, the break-voltage distribution for some alloys exhibits a double-peak structure, each peak locating close to the break voltage of the 1G0 contact of pure Au and Ag, respectively. This observation suggests that the break voltage of AuAg alloys is locally determined by the elemental species of the atom occupying the contact site. [DOI: 10.1380/ejssnt.2009.891]
ISSN:1348-0391
1348-0391
DOI:10.1380/ejssnt.2009.891