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Dynamic scaling for 2D superconductors, Josephson junction arrays and superfluids

Author: A. F. Hebard
A. Hebard
A. Jonsson
A. M. Kadin
A. T. Fiory
B. A. Huberman
B. I. Halperin
B. I. Halperin
B. J. Kim
C. J. Lobb
D. Bormann
D. C. Harris
D. J. Bishop
D. J. Bishop
D. P. Norton
D. R. Nelson
D. S. Fisher
D. T. Fuchs
D. W. Abraham
F. G. Mertens
G. Blatter
H. K. Olsson
H. S. J. van der Zant
H. Weber
J. Bardeen
J. C. Garland
J. E. Mooij
J. Lidmar
J. M. Kosterlitz
J. M. Kosterlitz
J. M. Repaci
J. Maps
J. Pearl
J.-R. Lee
Jeffrey C. Hunnicutt
K. Epstein
K. H. Lee
K. Holmlund
K. Moloni
L. Miu
LeRoy A. Gorham
M. Friesen
M. Friesen
M. Friesen
M. R. Beasley
M. Takahashi
M. V. Simkin
Mark Friesen
P. C. Hohenberg
P. M. Minnhagen
P. M. Minnhagen
P. Minnhagen
P. Minnhagen
R. Brada
R. H. Koch
R. J. Dionne
R. Théron
S. A. Wolf
S. E. Hebboul
S. Kim
S. M. Ammirata
S. M. Ammirata
S. Sujani
S. T. Herbert
S. T. Herbert
S. Vadlamannati
S. W. Pierson
S. W. Pierson
S. W. Pierson
Stephen W. Pierson
T. K. Shaw
V. Ambegaokar
V. Ambegaokar
V. Ambegaokar
V. Cataudella
V. L. Berezinskii
Y. Matsuda
Publication venue: 'American Physical Society (APS)'
Publication date: 26/01/1999
Field of study

The value of the dynamic critical exponent

z

is studied for two-dimensional superconducting, superfluid, and Josephson Junction array systems in zero magnetic field via the Fisher-Fisher-Huse dynamic scaling. We find

z\simeq5.6\pm0.3

, a relatively large value indicative of non-diffusive dynamics. Universality of the scaling function is tested and confirmed for the thinnest samples. We discuss the validity of the dynamic scaling analysis as well as the previous studies of the Kosterlitz-Thouless-Berezinskii transition in these systems, the results of which seem to be consistent with simple diffusion (

z=2

). Further studies are discussed and encouraged.Comment: 19 pages in two-column RevTex, 8 embedded EPS figure

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