Peak effect and scaling of irreversible properties in untwinned Y-Ba-Cu-O crystals

L. Klein; E. R. Yacoby; Y. Yeshurun; A. Erb; G. Müller-Vogt; V. Breit; H. Wühl

doi:10.1103/physrevb.49.4403

Peak effect and scaling of irreversible properties in untwinned Y-Ba-Cu-O crystals

L. Klein, E. R. Yacoby, Y. Yeshurun, A. Erb, G. Müller-Vogt, V. Breit, H. Wühl

Department of Physics - at Bar-Ilan University

Research output: Contribution to journal › Article › peer-review

218 Scopus citations

Abstract

We measured the peak effect in the magnetic hysteresis loop of an untwinned YBa2Cu3O7-δ crystal in the vicinity of the critical temperature and studied its temperature, time, and angular dependence. The location of the peak is determined by the component of the field along the c direction. The pinning force density Fp(B) is scaled into a single curve for all measured isotherms (75-87 K) and time scales (4-1500 sec), and its functional form reflects the observed peak effect. The scaling field is related to the irreversibility field of oxygen-deficient regimes. The results indicate that pinning in this system is due to inhomogeneity of the oxygen deficiency and that the peak is related to the formation of a percolationlike network of reversible regimes.

Original language	English
Pages (from-to)	4403-4406
Number of pages	4
Journal	Physical Review B
Volume	49
Issue number	6
DOIs	https://doi.org/10.1103/physrevb.49.4403
State	Published - 1994

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abstract = "We measured the peak effect in the magnetic hysteresis loop of an untwinned YBa2Cu3O7-δ crystal in the vicinity of the critical temperature and studied its temperature, time, and angular dependence. The location of the peak is determined by the component of the field along the c direction. The pinning force density Fp(B) is scaled into a single curve for all measured isotherms (75-87 K) and time scales (4-1500 sec), and its functional form reflects the observed peak effect. The scaling field is related to the irreversibility field of oxygen-deficient regimes. The results indicate that pinning in this system is due to inhomogeneity of the oxygen deficiency and that the peak is related to the formation of a percolationlike network of reversible regimes.",

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T1 - Peak effect and scaling of irreversible properties in untwinned Y-Ba-Cu-O crystals

AU - Klein, L.

AU - Yacoby, E. R.

AU - Yeshurun, Y.

AU - Erb, A.

AU - Müller-Vogt, G.

AU - Breit, V.

AU - Wühl, H.

PY - 1994

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AB - We measured the peak effect in the magnetic hysteresis loop of an untwinned YBa2Cu3O7-δ crystal in the vicinity of the critical temperature and studied its temperature, time, and angular dependence. The location of the peak is determined by the component of the field along the c direction. The pinning force density Fp(B) is scaled into a single curve for all measured isotherms (75-87 K) and time scales (4-1500 sec), and its functional form reflects the observed peak effect. The scaling field is related to the irreversibility field of oxygen-deficient regimes. The results indicate that pinning in this system is due to inhomogeneity of the oxygen deficiency and that the peak is related to the formation of a percolationlike network of reversible regimes.

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Peak effect and scaling of irreversible properties in untwinned Y-Ba-Cu-O crystals

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