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Superconductive coupling in tailored [(SnSe)1+δ]m(NbSe2)1multilayers

Martina TrahmsCorinna GrosseMatti B. AlemayehuOmar K. HiteOlivio ChiattiAnna MogilatenkoDavid C. JohnsonSaskia F. Fischer

Year: 2018 Journal:   Superconductor Science and Technology Vol: 31 (6)Pages: 065006-065006   Publisher: IOP Publishing
DOI: 10.1088/1361-6668/aabb3f
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Abstract

Ferecrystals are a new artificially layered material system, in which the individual layers are stacked with monolayer precision and are turbostratically disordered. Here, the superconducting coupling of the NbSe2 layers in [(SnSe)1+δ]m[NbSe2]1 ferecrystals with m between 1 and 6 are investigated. The variation of m effectively increases the distance between the superconducting NbSe2 monolayers. We find a systematic decrease of the transition temperature with an increasing number of SnSe layers per repeat unit. For m = 9 a superconducting transition can no longer be observed at temperatures above 250 mK. In order to investigate the superconducting coupling between individual NbSe2 layers, the cross-plane Ginzburg–Landau coherence lengths were determined. Electric transport measurements of the superconducting transition were performed in the presence of a magnetic field, oriented parallel and perpendicular to the layers, at temperatures closely below the transition temperature. A decoupling with increasing distance of the NbSe2 layers is observed. However, ferecrystals with NbSe2 layers separated by up to six layers of SnSe are still considered as three-dimensional superconductors.

Keywords:
Superconductivity Condensed matter physics Coherence length Materials science Monolayer Transition temperature Coupling (piping) Perpendicular Decoupling (probability) Superconducting coherence length Superconducting transition temperature Magnetic field Electrical resistivity and conductivity Physics Nanotechnology

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Citation History

Topics

2D Materials and Applications
Physical Sciences →  Materials Science →  Materials Chemistry
Quantum Dots Synthesis And Properties
Physical Sciences →  Materials Science →  Materials Chemistry
Perovskite Materials and Applications
Physical Sciences →  Engineering →  Electrical and Electronic Engineering

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