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Literature DB >> 27475577

Generation of constant-amplitude radio-frequency sweeps at a tunnel junction for spin resonance STM.

William Paul¹, Susanne Baumann¹, Christopher P Lutz¹, Andreas J Heinrich¹.

Abstract

We describe the measurement and successful compensation of the radio-frequency transfer function of a scanning tunneling microscope over a wide frequency range (15.5-35.5 GHz) and with high dynamic range (>50 dB). The precise compensation of cabling resonances and attenuations is critical for the production of constant-voltage frequency sweeps for electric-field driven electron spin resonance (ESR) experiments. We also demonstrate that a well-calibrated tunnel junction voltage is necessary to avoid spurious ESR peaks that can arise due to a non-flat transfer function.

Entities: Gene

Year: 2016 PMID： 27475577 DOI： 10.1063/1.4955446

Source DB: PubMed Journal: Rev Sci Instrum ISSN： 0034-6748 Impact factor: 1.523

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Cited

6 in total

1. Atomic-scale sensing of the magnetic dipolar field from single atoms.

Authors: Taeyoung Choi; William Paul; Steffen Rolf-Pissarczyk; Andrew J Macdonald; Fabian D Natterer; Kai Yang; Philip Willke; Christopher P Lutz; Andreas J Heinrich
Journal: Nat Nanotechnol Date: 2017-03-06 Impact factor: 39.213

2. Constant amplitude driving of a radiofrequency excited plasmonic tunnel junction.

Authors: Jiří Doležal; Pablo Merino; Martin Švec
Journal: Appl Phys Lett Date: 2021-05-11 Impact factor: 3.791

3. Achieving μeV tunneling resolution in an in-operando scanning tunneling microscopy, atomic force microscopy, and magnetotransport system for quantum materials research.

Authors: Johannes Schwenk; Sungmin Kim; Julian Berwanger; Fereshte Ghahari; Daniel Walkup; Marlou R Slot; Son T Le; William G Cullen; Steven R Blankenship; Sasa Vranjkovic; Hans J Hug; Young Kuk; Franz J Giessibl; Joseph A Stroscio
Journal: Rev Sci Instrum Date: 2020-07-01 Impact factor: 1.523

Generation of constant-amplitude radio-frequency sweeps at a tunnel junction for spin resonance STM.

1. Atomic-scale sensing of the magnetic dipolar field from single atoms.

2. Constant amplitude driving of a radiofrequency excited plasmonic tunnel junction.

3. Achieving μeV tunneling resolution in an in-operando scanning tunneling microscopy, atomic force microscopy, and magnetotransport system for quantum materials research.

4. Enhanced conductance response in radio frequency scanning tunnelling microscopy.

5. Probing quantum coherence in single-atom electron spin resonance.

6. Towards dielectric relaxation at a single molecule scale.