Interface effects in superconductor-nanotubes hybrid structures
N. Stefanakis
TL;DR
This paper investigates how the proximity effect in superconductor-carbon nanotube junctions can be controlled through geometrical modifications, using lattice BdG equations within the Hubbard model.
Contribution
It introduces a detailed analysis of the proximity effect in superconductor-nanotube hybrids and demonstrates control via geometrical changes.
Findings
Proximity effect varies significantly with connection geometry.
Geometrical modifications enable tuning of superconducting properties.
The Hubbard model effectively captures the interface phenomena.
Abstract
The objective of the present paper is to investigate the proximity effect in junctions of superconductors with carbon nanotubes. The method is the lattice BdG equations within the Hubbard model. The proximity effect depends sensitively on the connection giving the possibility to control the proximity effect by performing simple geometrical changes in the hybrid system
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