Calibrated microwave reflectance in low-temperature scanning tunneling microscopy

Author:

Wit Bareld1ORCID,Gramse Georg2ORCID,Müllegger Stefan1ORCID

Affiliation:

1. Institute of Semiconductor and Solid State Physics, Johannes Kepler University Linz 1 , 4040 Linz, Austria

2. Biophysics Institute, Johannes Kepler University 2 , 4020 Linz, Austria

Abstract

We outline calibrated measurements of the microwave reflection coefficient from the tunnel junction of an ultra-high vacuum low temperature scanning tunneling microscope. The microwave circuit design is described in detail, including an interferometer for an enhanced signal-to-noise ratio and a demodulation scheme for lock-in detection. A quantitative, in situ procedure for impedance calibration based on the numerical three-error-term model is presented. Our procedure exploits the response of the microwave reflection signal due to the change of the tunneling conductance caused by sub-nm variation of the tunneling distance. Experimental calibration is achieved by a least-squares numerical fit of simultaneously measured conductance and microwave reflection retraction curves at finite conductance. Our method paves the way for nanoscale microscopy and spectroscopy of dielectric surface properties at GHz frequencies and cryogenic temperatures. This opens a promising pathway even for dielectric fingerprinting at the single molecule limit.

Funder

HORIZON EUROPE European Research Council

European Metrology Program for Innovation and Research

Publisher

AIP Publishing

Subject

Instrumentation

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