Multi-conditioned controlled growth of CoBi nanostructures on SrTiO3

Cobalt pnictides have been theoretically proposed to be attractive candidates for high-temperature superconductors. Additionally, monolayered CoX (X = As, Sb, Bi) on SrTiO 3 systems present a potential new platform for realizing topological superconductors in the two-dimensional limit, due to their...

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Bibliographic Details
Published in:Frontiers of physics 2024-12, Vol.19 (6), p.63205, Article 63205
Main Authors: Cai, Desheng, Xia, Yumin, Li, Pengju, Xie, Kun, Liu, Yuzhou, Gu, Yitong, Yu, Gan, Zeng, Changgan, Cui, Ping, Qin, Shengyong
Format: Article
Language:English
Subjects:
Antimony
Astronomy
Astrophysics and Cosmology
Atomic
Atomic structure
Bismuth
Cobalt
Condensed Matter Physics
Electrons
Epitaxial growth
Fourier transforms
Group 5A compounds
Growth conditions
High temperature
High temperature superconductors
Microscopy
Molecular
Molecular beam epitaxy
Molecular structure
Nanowires
Optical and Plasma Physics
Particle and Nuclear Physics
Physics
Physics and Astronomy
Research Article
Scanning tunneling microscopy
Spectrum analysis
Strontium titanates
Substrates
Superconductivity
Temperature
Topography
Topological superconductors
Topology
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Summary:Cobalt pnictides have been theoretically proposed to be attractive candidates for high-temperature superconductors. Additionally, monolayered CoX (X = As, Sb, Bi) on SrTiO 3 systems present a potential new platform for realizing topological superconductors in the two-dimensional limit, due to their nontrivial band topology. To this end, we have successfully fabricated high-quality CoBi nanoislands on SrTiO 3 (001) substrates by molecular beam epitaxy followed by an investigation of their atomic structure and electronic properties via in situ scanning tunneling microscopy/spectroscopy. Beyond the previously predicted lattice with a = b = 3.5 Å, 2 × 1 dimer row was observed in this study. Furthermore, our results reveal that the topography of CoBi islands is strongly influenced by various growth conditions, such as substrate temperature, the flux ratio between Co and Bi, and the annealing process. This study paves the way for further explorations of the superconductivity and topological properties of cobalt pnictide systems.
ISSN:2095-0462
2095-0470
DOI:10.1007/s11467-024-1423-6