Flux Creep and Flux Jumping

A. Gerber; A. Gurevich; C.P. Bean; C.P. Bean; D.S. Fisher; J. Chikaba; K.H. Fisher; L. Legrand; M.E. McHenry; M.P.A. Fisher; M.V. Feigelman; N.H. Zebouni; P. Leiderer; P.W. Anderson; P.W. Anderson; R. G. Mints; R. Hancox; R.G. Mints; R.G. Mints; R.G. Mints; S.L. Wipf; T. Nattermann; W. Pan; Y.B. Kim; Y.B. Kim; Z. Wang

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Flux Creep and Flux Jumping

Authors: A. Gerber
A. Gurevich
C.P. Bean
C.P. Bean
D.S. Fisher
J. Chikaba
K.H. Fisher
L. Legrand
M.E. McHenry
M.P.A. Fisher
M.V. Feigelman
N.H. Zebouni
P. Leiderer
P.W. Anderson
P.W. Anderson
R. G. Mints
R. Hancox
R.G. Mints
R.G. Mints
R.G. Mints
S.L. Wipf
T. Nattermann
W. Pan
Y.B. Kim
Y.B. Kim
Z. Wang
Publication date: 2 July 1995
Publisher: 'American Physical Society (APS)'
Doi

Abstract

We consider the flux jump instability of the Bean's critical state arising in the flux creep regime in type-II superconductors. We find the flux jump field,

B_j

, that determines the superconducting state stability criterion. We calculate the dependence of

B_j

on the external magnetic field ramp rate,

\dot B_e

. We demonstrate that under the conditions typical for most of the magnetization experiments the slope of the current-voltage curve in the flux creep regime determines the stability of the Bean's critical state, {\it i.e.}, the value of

B_j

. We show that a flux jump can be preceded by the magneto-thermal oscillations and find the frequency of these oscillations as a function of

\dot B_e

.Comment: 7 pages, ReVTeX, 2 figures attached as postscript file

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