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Main Authors: Cuenca, J. P., de Ara, T., Martinez-Garcia, A., Guzman, F., Sabater, C.
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2503.00161
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author Cuenca, J. P.
de Ara, T.
Martinez-Garcia, A.
Guzman, F.
Sabater, C.
author_facet Cuenca, J. P.
de Ara, T.
Martinez-Garcia, A.
Guzman, F.
Sabater, C.
contents We present an in-depth study of electronic transport in atomic-sized gold contacts using Break-Junction (BJ) techniques under cryogenic and ambient conditions. Our experimental results, supported by classical molecular dynamics (CMD) simulations and ab initio calculations, provide compelling evidence for the formation of three-atom-thick structures in gold nanocontacts under tensile stress. These findings extend previous studies that confirmed the existence of one- and two-atom-thick chains. Beyond identifying these novel atomic configurations, we introduce a fast and robust calibration method for Break-Junction systems, leveraging the characteristic length of these structures to convert piezo displacement into absolute distance in angstroms. Our approach presents a novel and robust method for calibrating atomic distances in atomic conductor systems at both cryogenic and room temperatures. The results also enable the assessment of electrode sharpness, even at room conditions.
format Preprint
id arxiv_https___arxiv_org_abs_2503_00161
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Exploring Three-Atom-Thick Gold Structures as a Benchmark for Atomic-Scale Calibration of Break-Junction Systems
Cuenca, J. P.
de Ara, T.
Martinez-Garcia, A.
Guzman, F.
Sabater, C.
Mesoscale and Nanoscale Physics
Materials Science
We present an in-depth study of electronic transport in atomic-sized gold contacts using Break-Junction (BJ) techniques under cryogenic and ambient conditions. Our experimental results, supported by classical molecular dynamics (CMD) simulations and ab initio calculations, provide compelling evidence for the formation of three-atom-thick structures in gold nanocontacts under tensile stress. These findings extend previous studies that confirmed the existence of one- and two-atom-thick chains. Beyond identifying these novel atomic configurations, we introduce a fast and robust calibration method for Break-Junction systems, leveraging the characteristic length of these structures to convert piezo displacement into absolute distance in angstroms. Our approach presents a novel and robust method for calibrating atomic distances in atomic conductor systems at both cryogenic and room temperatures. The results also enable the assessment of electrode sharpness, even at room conditions.
title Exploring Three-Atom-Thick Gold Structures as a Benchmark for Atomic-Scale Calibration of Break-Junction Systems
topic Mesoscale and Nanoscale Physics
Materials Science
url https://arxiv.org/abs/2503.00161