Electronic band structure of superconducting KTaO3 (111) interfaces

Mallik, Srijani; Goebel, Boerge; Witt, Hugo; Vicente-Arche, Luis M.; Varotto, Sara; Brehin, Julien; Menard, Gerbold; Saiz, Guilhem; Tamsaout, Dyhia; Santander-Syro, Andres Felipe; Fortuna, Franck; Bertran, Francois; Le Fevre, Patrick; Rault, Julien; Boventer, Isabella; Mertig, Ingrid; Barthelemy, Agnes; Bergeal, Nicolas; Johansson, Annika; Bibes, Manuel

doi:10.1063/5.0169750

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Electronic band structure of superconducting KTaO₃ (111) interfaces

Mallik, S., Goebel, B., Witt, H., Vicente-Arche, L. M., Varotto, S., Brehin, J., et al. (2023). Electronic band structure of superconducting KTaO₃ (111) interfaces. APL Materials, 11(12): 121108. doi:10.1063/5.0169750.

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Creators:
Mallik, Srijani¹, Author
Goebel, Boerge¹, Author
Witt, Hugo¹, Author
Vicente-Arche, Luis M.¹, Author
Varotto, Sara¹, Author
Brehin, Julien¹, Author
Menard, Gerbold¹, Author
Saiz, Guilhem¹, Author
Tamsaout, Dyhia¹, Author
Santander-Syro, Andres Felipe¹, Author
Fortuna, Franck¹, Author
Bertran, Francois¹, Author
Le Fevre, Patrick¹, Author
Rault, Julien¹, Author
Boventer, Isabella¹, Author
Mertig, Ingrid¹, Author
Barthelemy, Agnes¹, Author
Bergeal, Nicolas¹, Author
Johansson, Annika², Author
Bibes, Manuel¹, Author

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1external, ou_persistent22
2Nano-Systems from Ions, Spins and Electrons, Max Planck Institute of Microstructure Physics, Max Planck Society, ou_3287476

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Abstract: Two-dimensional electron gases (2DEGs) based on KTaO₃ are emerging as a promising platform for spin-orbitronics due to their high Rashba spin–orbit coupling (SOC) and gate-voltage tunability. The recent discovery of a superconducting state in KTaO₃ 2DEGs now expands their potential towards topological superconductivity. Although the band structure of KTaO₃ surfaces of various crystallographic orientations has already been mapped using angle-resolved photoemission spectroscopy (ARPES), this is not the case for superconducting KTaO₃ 2DEGs. Here, we reveal the electronic structure of superconducting 2DEGs based on KTaO₃ (111) single crystals through ARPES measurements. We fit the data with a tight-binding model and compute the associated spin textures to bring insight into the SOC-driven physics of this fascinating system.

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Dates: Date issued: 2023-12-07

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Identifiers: ISI: 001118909200001
DOI: 10.1063/5.0169750

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Title: APL Materials

Abbreviation : APL Mater.

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Pages: - Volume / Issue: 11 (12) Sequence Number: 121108 Start / End Page: - Identifier: CoNE: https://pure.mpg.de/cone/journals/resource/2166-532X