# Evolution of shot noise in suspended lithographic gold break junctions   with bias and temperature

**Authors:** Ruoyu Chen, Douglas Natelson

arXiv: 1704.01690 · 2017-04-07

## TL;DR

This study systematically measures shot noise in atomic-scale gold break junctions across temperatures, revealing minimal temperature dependence and features indicating non-interacting transport phenomena.

## Contribution

It provides new rf shot noise measurements at various temperatures and biases, highlighting non-interacting origins of observed shot noise features in gold atomic junctions.

## Key findings

- Minimal temperature dependence of shot noise from 4.2K to 100K
- Enhanced Fano factors near 0.5 G₀
- Bias-dependent features suggesting transmittance effects

## Abstract

Shot noise is a powerful tool to probe correlations and microscopic transport details that conductance measurements alone cannot reveal. Even in atomic-scale Au devices that are well described by Landauer-B{\"u}ttiker physics, complications remain such as local heating and electron-phonon interactions. We report systematic rf measurements of shot noise in individual atomic-scale gold break junctions at multiple temperatures, with most bias voltages well above the energy of the Au optical phonon mode. Motivated by the previous experimental evidence that electron-phonon interactions can modify Fano factors and result in kinked features in bias dependence of shot noise, we find that the temperature dependence of shot noise from 4.2~K to 100~K is minimal. Enhanced Fano factors near 0.5$~G_0$ and features beyond simply linear bias dependence of shot noise near the 1$~G_0$ plateau are observed. Both are believed to have non-interacting origins and the latter likely results from slightly bias-dependent transmittance of the dominant quantum channel.

## Full text

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## Figures

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## References

51 references — full list in the complete paper: https://tomesphere.com/paper/1704.01690/full.md

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Source: https://tomesphere.com/paper/1704.01690