Proximity effect and strong coupling superconductivity in nanostructures
  built with an STM

A. Izquierdo; C. Untiedt; D.J. Scalapino; E. Bascones; F. Guinea; G. Rubio-Bollinger; G.M. Eliashberg; H. Suderow; H. Suderow; H. Suderow; H.F. Hess; I. Maggio-Aprili; J.G. Rodrigo; J.M. Daams; J.R. Kirtley; K.D. Usadel; M. Poza; N. Agraït; O. Naaman; O. Naaman; R. Mersevey; S. Vieira; S.H. Pan; S.H. Pan; Th.H.M. Rasing; V.R. Misko

research

Proximity effect and strong coupling superconductivity in nanostructures built with an STM

Authors: A. Izquierdo
C. Untiedt
D.J. Scalapino
E. Bascones
F. Guinea
G. Rubio-Bollinger
G.M. Eliashberg
H. Suderow
H. Suderow
H. Suderow
H.F. Hess
I. Maggio-Aprili
J.G. Rodrigo
J.M. Daams
J.R. Kirtley
K.D. Usadel
M. Poza
N. Agraït
O. Naaman
O. Naaman
R. Mersevey
S. Vieira
S.H. Pan
S.H. Pan
Th.H.M. Rasing
V.R. Misko
Publication date: 20 November 2001
Publisher: 'American Physical Society (APS)'
Doi

Abstract

We present high resolution tunneling spectroscopy data at very low temperatures on superconducting nanostructures of lead built with an STM. By applying magnetic fields, superconductivity is restricted to length scales of the order of the coherence length. We measure the tunneling conductance and analyze the phonon structure and the low energy DOS. We demonstrate the influence of the geometry of the system on the magnetic field dependence of the tunneling density of states, which is gapless in a large range of fields. The behavior of the features in the tunneling conductance associated to phonon modes are explained within current models.Comment: 4 figures, 4 page

Similar works

Full text

Available Versions

Crossref

info:doi/10.1103%2Fphysrevb.65...

Last time updated on 03/01/2020