Content area
Abstract
Tunneling I–V characteristics between very narrow titanium nanowires and “massive” superconducting aluminum were measured. The clear trend was observed: the thinner the titanium electrode, the broader the singularity at eV = Δ1(Al) + Δ2(Ti). The phenomenon can be explained by broadening of the gap edge of the quasi-one-dimensional titanium channels due to quantum fluctuations of the order parameter modulus |Δ2|. The range of the nanowire diameters, where the effect is pronounced, correlates with dimensions where the phase fluctuations of the complex superconducting order parameter Δ = |Δ|eiφ, the quantum phase slips, broadening the R(T) dependencies, have been observed.
Details
Title
Quantum Fluctuations of a Superconductor Order Parameter
Pages
364
Publication year
2016
Publication date
Dec 2016
ISSN
19317573
e-ISSN
1556276X
Source type
Scholarly Journal
Language of publication
English
ProQuest document ID
1858727786
Copyright
Copyright Springer Nature B.V. Dec 2016