Electronic and magnetic characterization of epitaxial VSe2 monolayers on superconducting NbSe2

There has been enormous recent interest in heterostructures of two-dimensional van der Waals materials. Integrating materials with different quantum ground states in vertical heterostructures is predicted to lead to novel electronic properties that are not found in the constituent layers. Here, we p...

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Published in	Communications physics Vol. 3; no. 1
Main Authors	Kezilebieke, Shawulienu, Huda, Md Nurul, Dreher, Paul, Manninen, Ilkka, Zhou, Yifan, Sainio, Jani, Mansell, Rhodri, Ugeda, Miguel M., van Dijken, Sebastiaan, Komsa, Hannu-Pekka, Liljeroth, Peter
Format	Journal Article
Language	English
Published	London Nature Publishing Group UK 26.06.2020 Nature Publishing Group
Subjects	639/301/119 639/301/119/1003 639/301/119/544 639/301/119/995 639/301/119/997 Charge density waves Density functional theory Electronic devices Epitaxial growth Ground state Heterostructures High vacuum Low temperature Magnetic properties Molecular beam epitaxy Monolayers Niobium Physics Physics and Astronomy Reduction Scanning tunneling microscopy Substrates Superconductivity
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Abstract	There has been enormous recent interest in heterostructures of two-dimensional van der Waals materials. Integrating materials with different quantum ground states in vertical heterostructures is predicted to lead to novel electronic properties that are not found in the constituent layers. Here, we present direct synthesis of a superconductor-magnet hybrid heterostructure by combining superconducting niobium diselenide (NbSe 2 ) with the monolayer vanadium diselenide (VSe 2 ). Molecular-beam epitaxy growth in ultra-high vacuum yields clean and atomically sharp interfaces. Combining different characterization techniques and density-functional theory calculations, we investigate the electronic and magnetic properties of VSe 2 on NbSe 2 . Low temperature scanning tunneling microscopy measurements show an absence of the typical charge density wave on VSe 2 and demonstrate a reduction of the superconducting gap of NbSe 2 on the VSe 2 layer. This suggests magnetization of the VSe 2 sheet, at least on the local scale. Our work demonstrates superconducting-magnetic hybrid materials with potential applications in future electronics devices. Whether two dimensional magnetic ordering exists in monolayers of VSe 2 has been the subject of recent debate. Here, the authors investigate monolayers of VSe 2 grown on an NbSe 2 substrate and demonstrate a reduction in the superconducting gap of the NbSe 2 and absence of charge density wave formation supporting the presence of a magnetic ground state in the VSe 2 .
AbstractList	There has been enormous recent interest in heterostructures of two-dimensional van der Waals materials. Integrating materials with different quantum ground states in vertical heterostructures is predicted to lead to novel electronic properties that are not found in the constituent layers. Here, we present direct synthesis of a superconductor-magnet hybrid heterostructure by combining superconducting niobium diselenide (NbSe 2 ) with the monolayer vanadium diselenide (VSe 2 ). Molecular-beam epitaxy growth in ultra-high vacuum yields clean and atomically sharp interfaces. Combining different characterization techniques and density-functional theory calculations, we investigate the electronic and magnetic properties of VSe 2 on NbSe 2 . Low temperature scanning tunneling microscopy measurements show an absence of the typical charge density wave on VSe 2 and demonstrate a reduction of the superconducting gap of NbSe 2 on the VSe 2 layer. This suggests magnetization of the VSe 2 sheet, at least on the local scale. Our work demonstrates superconducting-magnetic hybrid materials with potential applications in future electronics devices. There has been enormous recent interest in heterostructures of two-dimensional van der Waals materials. Integrating materials with different quantum ground states in vertical heterostructures is predicted to lead to novel electronic properties that are not found in the constituent layers. Here, we present direct synthesis of a superconductor-magnet hybrid heterostructure by combining superconducting niobium diselenide (NbSe2) with the monolayer vanadium diselenide (VSe2). Molecular-beam epitaxy growth in ultra-high vacuum yields clean and atomically sharp interfaces. Combining different characterization techniques and density-functional theory calculations, we investigate the electronic and magnetic properties of VSe2 on NbSe2. Low temperature scanning tunneling microscopy measurements show an absence of the typical charge density wave on VSe2 and demonstrate a reduction of the superconducting gap of NbSe2 on the VSe2 layer. This suggests magnetization of the VSe2 sheet, at least on the local scale. Our work demonstrates superconducting-magnetic hybrid materials with potential applications in future electronics devices.Whether two dimensional magnetic ordering exists in monolayers of VSe2 has been the subject of recent debate. Here, the authors investigate monolayers of VSe2 grown on an NbSe2 substrate and demonstrate a reduction in the superconducting gap of the NbSe2 and absence of charge density wave formation supporting the presence of a magnetic ground state in the VSe2. There has been enormous recent interest in heterostructures of two-dimensional van der Waals materials. Integrating materials with different quantum ground states in vertical heterostructures is predicted to lead to novel electronic properties that are not found in the constituent layers. Here, we present direct synthesis of a superconductor-magnet hybrid heterostructure by combining superconducting niobium diselenide (NbSe 2 ) with the monolayer vanadium diselenide (VSe 2 ). Molecular-beam epitaxy growth in ultra-high vacuum yields clean and atomically sharp interfaces. Combining different characterization techniques and density-functional theory calculations, we investigate the electronic and magnetic properties of VSe 2 on NbSe 2 . Low temperature scanning tunneling microscopy measurements show an absence of the typical charge density wave on VSe 2 and demonstrate a reduction of the superconducting gap of NbSe 2 on the VSe 2 layer. This suggests magnetization of the VSe 2 sheet, at least on the local scale. Our work demonstrates superconducting-magnetic hybrid materials with potential applications in future electronics devices. Whether two dimensional magnetic ordering exists in monolayers of VSe 2 has been the subject of recent debate. Here, the authors investigate monolayers of VSe 2 grown on an NbSe 2 substrate and demonstrate a reduction in the superconducting gap of the NbSe 2 and absence of charge density wave formation supporting the presence of a magnetic ground state in the VSe 2 .
ArticleNumber	116
Author	Ugeda, Miguel M. Kezilebieke, Shawulienu Dreher, Paul Manninen, Ilkka Huda, Md Nurul van Dijken, Sebastiaan Liljeroth, Peter Zhou, Yifan Komsa, Hannu-Pekka Sainio, Jani Mansell, Rhodri
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Snippet	There has been enormous recent interest in heterostructures of two-dimensional van der Waals materials. Integrating materials with different quantum ground...
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SubjectTerms	639/301/119 639/301/119/1003 639/301/119/544 639/301/119/995 639/301/119/997 Charge density waves Density functional theory Electronic devices Epitaxial growth Ground state Heterostructures High vacuum Low temperature Magnetic properties Molecular beam epitaxy Monolayers Niobium Physics Physics and Astronomy Reduction Scanning tunneling microscopy Substrates Superconductivity
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Title	Electronic and magnetic characterization of epitaxial VSe2 monolayers on superconducting NbSe2
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