Nonlinear U(j) dependence determined directly from low-electric-field E-js curves in YBa2Cu3O7- thin films

Journal Article (1995)
Author(s)

H. H. Wen (National Laboratory for Superconductivity, Chinese Academy of Sciences)

Z. X. Zhao (National Laboratory for Superconductivity, Chinese Academy of Sciences)

R. J. Wijngaarden (Vrije Universiteit Amsterdam)

J. Rector (Vrije Universiteit Amsterdam)

B. Dam (Vrije Universiteit Amsterdam)

R. Griessen (Vrije Universiteit Amsterdam)

Affiliation
External organisation
DOI related publication
https://doi.org/10.1103/PhysRevB.52.4583 Final published version
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Publication Year
1995
Language
English
Affiliation
External organisation
Journal title
Physical Review B
Issue number
6
Volume number
52
Pages (from-to)
4583-4587
Downloads counter
195

Abstract

Low-electric-field E-js curves, normalized dynamical relaxation rate Q(T)=d ln(js)/d ln(E), and experimental critical current density js(E=Ec) were measured from 10 to 85 K with the magnetic sweeping method. By taking a general assumption for the activation energy U(js,T)=Uc(T)f[js(T)/jc(T)], with t=T/Tc, we obtained the U(j,T=0 K) relation by scaling all the E-js curves of different temperatures to one smooth curve with Uc(T) and jc(T) determined by the so-called generalized inversion scheme. It is shown that the important parameter c=ln(v0B), which was actually taken as a fitting parameter in the scaling process in previous work, can be predetermined. It is also found that the resulting U(j,T=0 K) relation based on the E-js curves for T 79 K can be well interpreted with the collective-pinning model. However, the data for T>79 K start to deviate from this interpretation, which may be attributed to the reverse hopping of vortices.