First experimental evidence of one-dimensional plasma modes in
  superconducting thin wires

A. Bezryadin; A. D. Zaikin; A. O. Caldeira; A. Schmid; B. Camarota; B. Camarota; F. Balestro; F. J. Dunmore; F. Parage; F. Parage; F. Sharifi; F. W. J. Hekking; H. van der Zant; I. O. Kulik; J. E. Mooij; J. Halbritter; J. M. Duan; J. Swihart; K. C. Gupta; N. Giordano; O. Buisson; O. Buisson; O. Buisson; P. Delsing; P. Falci; P. V. Mason; R. Fazio; U. Eckern; W. H. Henkels; Y. B. Kim

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First experimental evidence of one-dimensional plasma modes in superconducting thin wires

Authors: A. Bezryadin
A. D. Zaikin
A. O. Caldeira
A. Schmid
B. Camarota
B. Camarota
F. Balestro
F. J. Dunmore
F. Parage
F. Parage
F. Sharifi
F. W. J. Hekking
H. van der Zant
I. O. Kulik
J. E. Mooij
J. Halbritter
J. M. Duan
J. Swihart
K. C. Gupta
N. Giordano
O. Buisson
O. Buisson
O. Buisson
P. Delsing
P. Falci
P. V. Mason
R. Fazio
U. Eckern
W. H. Henkels
Y. B. Kim
Publication date: 1 January 2000
Publisher: 'American Physical Society (APS)'
Doi

Abstract

We have studied niobium superconducting thin wires deposited onto a SrTiO

_{3}

substrate. By measuring the reflection coefficient of the wires, resonances are observed in the superconducting state in the 130 MHz to 4 GHz range. They are interpreted as standing wave resonances of one-dimensional plasma modes propagating along the superconducting wire. The experimental dispersion law,

\omega

versus

q

, presents a linear dependence over the entire wave vector range. The modes are softened as the temperature increases close the superconducting transition temperature. Very good agreement are observed between our data and the dispersion relation predicted by Kulik and Mooij and Sch\"on.Comment: Submitted to Physical review Letter

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