Diverging time scales for onset of irreversibility in high-temperature superconductors

Y. Wolfus; Y. Abulafia; L. Klein; V. A. Larkin; A. Shaulov; Y. Yeshurun; M. Konczykowski; M. Feigel'man

doi:10.1016/0921-4534(94)90256-9

Diverging time scales for onset of irreversibility in high-temperature superconductors

Y. Wolfus, Y. Abulafia, L. Klein, V. A. Larkin, A. Shaulov, Y. Yeshurun, M. Konczykowski, M. Feigel'man

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Abstract

The onset temperature, T_irr, for magnetic irreversibility in high-temperature superconductors has been investigated as a function of frequency (0.2 Hz≤f≤65 000 Hz) and DC magnetic field (0<H<4000 Oe). In Y-Ba-Cu-O crystals T_irr is essentially independent of the frequency, while in Bi-Sr-Ca-Cu-O and Tl-Ba-Ca-Cu-O crystals T_irr exhibits a strong frequency dependence. For all three systems T_irr(H) converges to a finite temperatureas the frequency approaches zero. Analysis of the experimental data shows that conventional theories of thermally-activated vortex motion cannot explain the measured frequency dependence of T_irr. Rather, the data indicate that T_irr for f→0 can be interpreted as a transition temperature separating the reversible vortex-liquid and the irreversible vortex-glass phases.

Original language	English
Pages (from-to)	213-220
Number of pages	8
Journal	Physica C: Superconductivity and its Applications
Volume	224
Issue number	3-4
DOIs	https://doi.org/10.1016/0921-4534(94)90256-9
State	Published - 1 May 1994

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title = "Diverging time scales for onset of irreversibility in high-temperature superconductors",

abstract = "The onset temperature, Tirr, for magnetic irreversibility in high-temperature superconductors has been investigated as a function of frequency (0.2 Hz≤f≤65 000 Hz) and DC magnetic field (0irr is essentially independent of the frequency, while in Bi-Sr-Ca-Cu-O and Tl-Ba-Ca-Cu-O crystals Tirr exhibits a strong frequency dependence. For all three systems Tirr(H) converges to a finite temperatureas the frequency approaches zero. Analysis of the experimental data shows that conventional theories of thermally-activated vortex motion cannot explain the measured frequency dependence of Tirr. Rather, the data indicate that Tirr for f→0 can be interpreted as a transition temperature separating the reversible vortex-liquid and the irreversible vortex-glass phases.",

author = "Y. Wolfus and Y. Abulafia and L. Klein and Larkin, {V. A.} and A. Shaulov and Y. Yeshurun and M. Konczykowski and M. Feigel'man",

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T1 - Diverging time scales for onset of irreversibility in high-temperature superconductors

AU - Wolfus, Y.

AU - Abulafia, Y.

AU - Klein, L.

AU - Larkin, V. A.

AU - Shaulov, A.

AU - Yeshurun, Y.

AU - Konczykowski, M.

AU - Feigel'man, M.

PY - 1994/5/1

Y1 - 1994/5/1

N2 - The onset temperature, Tirr, for magnetic irreversibility in high-temperature superconductors has been investigated as a function of frequency (0.2 Hz≤f≤65 000 Hz) and DC magnetic field (0irr is essentially independent of the frequency, while in Bi-Sr-Ca-Cu-O and Tl-Ba-Ca-Cu-O crystals Tirr exhibits a strong frequency dependence. For all three systems Tirr(H) converges to a finite temperatureas the frequency approaches zero. Analysis of the experimental data shows that conventional theories of thermally-activated vortex motion cannot explain the measured frequency dependence of Tirr. Rather, the data indicate that Tirr for f→0 can be interpreted as a transition temperature separating the reversible vortex-liquid and the irreversible vortex-glass phases.

AB - The onset temperature, Tirr, for magnetic irreversibility in high-temperature superconductors has been investigated as a function of frequency (0.2 Hz≤f≤65 000 Hz) and DC magnetic field (0irr is essentially independent of the frequency, while in Bi-Sr-Ca-Cu-O and Tl-Ba-Ca-Cu-O crystals Tirr exhibits a strong frequency dependence. For all three systems Tirr(H) converges to a finite temperatureas the frequency approaches zero. Analysis of the experimental data shows that conventional theories of thermally-activated vortex motion cannot explain the measured frequency dependence of Tirr. Rather, the data indicate that Tirr for f→0 can be interpreted as a transition temperature separating the reversible vortex-liquid and the irreversible vortex-glass phases.

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JO - Physica C: Superconductivity and its Applications

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Diverging time scales for onset of irreversibility in high-temperature superconductors

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