Cryogenic amplifier with high sensitivity and stability for noise-STM

Publication date

2026-02-01

Authors

Ortego Larrazabal, Maialen
Niu, Jiasen
Ge, Jian Feng
Sato, Yudai
Cuperus, Jan Petrus
Benschop, Tjerk
Bastiaans, Koen M.
Mozes, Amber
Swart, I.ORCID 0000-0003-3201-7301ISNI 0000000390199991
Allan, Milan P.

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Document Type

Article
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cc_by

Abstract

Local shot noise spectroscopy with scanning tunneling microscopy (STM) has proven to be a powerful technique to investigate the electronic properties of quantum materials. It provides direct and non-invasive insight into the tunneling charge quanta or dynamics at the atomic scale. Due to the typically weak noise signal and the presence of low frequency spurious noise, local noise experiments require a high-resolution measurement amplifier. Here, we present a newly developed high-resolution noise amplifier that we implemented in three different STMs. Compared to our previous generation, we obtain more than a 20-fold improvement in the noise resolution, allowing us to resolve values of the effective charge as small as 0.01 e. Our amplifier opens new possibilities for studying electronic properties in novel materials such as d-wave superconductors. In addition to this, it can give direct information about the local electron temperature in STM experiments.

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Citation

Ortego Larrazabal, M, Niu, J, Ge, J F, Sato, Y, Cuperus, J P, Benschop, T, Bastiaans, K M, Mozes, A, Swart, I & Allan, M P 2026, 'Cryogenic amplifier with high sensitivity and stability for noise-STM', Review of Scientific Instruments, vol. 97, no. 2, 023701. https://doi.org/10.1063/5.0300260