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Rare-earth atoms on Nb(110) as a platform to engineer topological superconductivity

David Antognini Silva1,2, Yu Wang3, Nicolae Atodiresei1, Felix Friedrich3, Stefan Blügel1,2, Matthias Bode3,4, Philipp Rüßmann1,5*, Artem Odobesko3

1 Peter Grünberg Institut, Forschungszentrum Jülich and JARA, 52425 Jülich, Germany

2 Institute for Theoretical Physics, RWTH Aachen University, 52074 Aachen, Germany

3 Physikalisches Institut, Experimentelle Physik II, Universität Würzburg, Am Hubland, 97074 Würzburg, Germany

4 Wilhelm Conrad Röntgen-Center for Complex Material Systems (RCCM), Universität Würzburg, Am Hubland, 97074 Würzburg, Germany

5 Institute of Theoretical Physics and Astrophysics, University of Würzburg, 97074 Würzburg, Germany

* Corresponding authors emails: p.ruessmann@fz-juelich.de
DOI10.24435/materialscloud:ey-vn [version v1]

Publication date: Dec 09, 2024

How to cite this record

David Antognini Silva, Yu Wang, Nicolae Atodiresei, Felix Friedrich, Stefan Blügel, Matthias Bode, Philipp Rüßmann, Artem Odobesko, Rare-earth atoms on Nb(110) as a platform to engineer topological superconductivity, Materials Cloud Archive 2024.196 (2024), https://doi.org/10.24435/materialscloud:ey-vn

Description

Our study reveals how Gd adatoms and dimers on a superconducting Nb(110) surface induce Yu-Shiba-Rusinov (YSR) states, offering valuable insights into magnetic interactions of rare-earth atoms on superconducting surfaces. By engineering Gd dimers along the [1-10] and [001] directions, we uncover an indirect coupling between the Gd magnetic moments and the Nb substrate via their valence d electrons, leading to significant alterations in the YSR spectrum around the dimers. We further demonstrate the possibility for Néel-type spin-spiral ground states in chains of Gd atoms on Nb(110). These findings highlight the potential of 4f elements like Gd as a promising platform for controlling a spin-spiral ground state, a crucial prerequisite for realizing a topological superconductor that can host Majorana zero modes. The combination of theoretical modeling based on density functional theory, atomistic spin-dynamics simulations and experimental techniques, including scanning tunneling microscopy and spectroscopy, provides a comprehensive understanding of the coupling mechanisms and their impact on the electronic properties of these systems and establishes rare-earth magnets on Nb as a promising platform in the field. This dataset collects the experimental and theoretical results of this work.

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Files

File name Size Description
Spin_dynamics.ipynb
MD5md5:c4f67688ae5062cad0f958a43edb546c
3.0 MiB Notebook for plotting and data analysis of the spin-dynamics simulations
export_spirit.aiida
MD5md5:8f025e290682458f10490f69ff8f4b32
Open this AiiDA archive on renkulab.io (https://renkulab.io/) 		20.7 MiB AiiDA export file containing the data used in "Spin_dynamics.ipynb"
requirements_spirit.txt
MD5md5:a1c1a77cc17955f2647180f2686a18d4
4.5 KiB Python environment used in "Spin_dynamics.ipynb"
Figures_Gd_paper.ipynb
MD5md5:ac615c25cad05023680aae9e5fc6e26d
1.5 MiB Notebook for plotting and data analysis of the KKR calculations (Jij, KS-BdG)
export_kkr.aiida
MD5md5:f4fe0b07b17073036a84ef60053935eb
Open this AiiDA archive on renkulab.io (https://renkulab.io/) 		18.2 GiB AiiDA export file containing data used in "Figures_kkr.ipynb"
requirements_kkr.txt
MD5md5:a21fb7ffe9c49b8ca27ea1f27d4f76b9
4.5 KiB Python environment used in "Figures_kkr.ipynb"
data.zip
MD5md5:35d3c17e571ead1951d895aa849557fe
43.8 KiB Raw data files for STM and STS measurements
2Gd_short.tar.gz
MD5md5:f5adfdca3da9302f441198912291b193
523.8 MiB VASP data of Gd short dimer
2Gd_long.tar.gz
MD5md5:20a51b0d7e199a54f5db71f3eb45d6f9
526.2 MiB VASP data of long Gd dimer

License

Files and data are licensed under the terms of the following license: Creative Commons Attribution 4.0 International.
Metadata, except for email addresses, are licensed under the Creative Commons Attribution Share-Alike 4.0 International license.

External references

Preprint (Paper where the data is discussed)
D. Antognini Silva, Yu Wang, N. Atodiresei, F. Friedrich, S. Blügel, M. Bode, P. Rüßmann, and A. Odobesko, in preparation (2024)
Software (Source code for the AiiDA-KKR plugin)
P. Rüßmann, F. Bertoldo, J. Bröder, J. Wasmer, R. Mozumder, J. Chico, and S. Blügel, Zenodo (2021) doi:10.5281/zenodo.3628251
Journal reference (AiiDA-KKR method paper)
P. Rüßmann, F. Bertoldo, and S. Blügel, The AiiDA-KKR plugin and its application to high-throughput impurity embedding into a topological insulator. npj Comput Mater 7, 13 (2021) doi:10.1038/s41524-020-00482-5
Software (Source code of the JuKKR code)
The JuKKR developers, JuDFTteam/JuKKR: v3.6 (v3.6), Zenodo. (2022) doi:10.5281/zenodo.7284739

Keywords

Superconductivity topological materials Majorana zero mode Topological superconductor magnetism adatoms rare-earth DFT+U spin-dynamics STM spin-spiral

Version history:

2024.196 (version v1) [This version] Dec 09, 2024 DOI10.24435/materialscloud:ey-vn