Effect of Cu-O layer spacing on the magnetic field induced resistive broadening of high-temperature superconductors

D. H. Kim; K. E. Gray; R. T. Kampwirth; J. C. Smith; D. S. Richeson; T. J. Marks; J. H. Kang; J. Talvacchio; M. Eddy

doi:10.1016/0921-4534(91)90500-X

Effect of Cu-O layer spacing on the magnetic field induced resistive broadening of high-temperature superconductors

D. H. Kim^*, K. E. Gray, R. T. Kampwirth, J. C. Smith, D. S. Richeson, T. J. Marks, J. H. Kang, J. Talvacchio, M. Eddy

^*Corresponding author for this work

Chemistry

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

268 Scopus citations

Abstract

For H{norm of matrix}c-axis, the magnetic field induced broadening of the resistive transitions of high-T_c superconductors (HTS) is shown to depend strongly on the Cu-O layer spacing. For the highly anisotropic HTS, we show experimental evidence that flux motion results from a thermally activated crossover from three dimensional (3D) vortex lines to 2D independent pancake-like vortices in the Cu-O layers, which is intrinsic to the material and occurs when k_BT exceeds the Josephson coupling energy of these layers. At low temperatures, however, thermally activated conventional depinning (which can be sample dependent) or melting in the uncoupled 2D Cu-O layers is also required for flux motion. For YBa₂Cu₃O₇, this dimensional crossover does not occur below H_c2, presumably because the conducting Cu-O chains short-circuit the Josephson interlayer coupling, leading to better superconducting properties in a magnetic field. These results show that strong interlayer coupling is a key to finding good alternatives.

Original language	English (US)
Pages (from-to)	431-437
Number of pages	7
Journal	Physica C: Superconductivity and its applications
Volume	177
Issue number	4-6
DOIs	https://doi.org/10.1016/0921-4534(91)90500-X
State	Published - Jul 1 1991

ASJC Scopus subject areas

Electronic, Optical and Magnetic Materials
Condensed Matter Physics
Energy Engineering and Power Technology
Electrical and Electronic Engineering

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10.1016/0921-4534(91)90500-X

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title = "Effect of Cu-O layer spacing on the magnetic field induced resistive broadening of high-temperature superconductors",

abstract = "For H{norm of matrix}c-axis, the magnetic field induced broadening of the resistive transitions of high-Tc superconductors (HTS) is shown to depend strongly on the Cu-O layer spacing. For the highly anisotropic HTS, we show experimental evidence that flux motion results from a thermally activated crossover from three dimensional (3D) vortex lines to 2D independent pancake-like vortices in the Cu-O layers, which is intrinsic to the material and occurs when kBT exceeds the Josephson coupling energy of these layers. At low temperatures, however, thermally activated conventional depinning (which can be sample dependent) or melting in the uncoupled 2D Cu-O layers is also required for flux motion. For YBa2Cu3O7, this dimensional crossover does not occur below Hc2, presumably because the conducting Cu-O chains short-circuit the Josephson interlayer coupling, leading to better superconducting properties in a magnetic field. These results show that strong interlayer coupling is a key to finding good alternatives.",

author = "Kim, {D. H.} and Gray, {K. E.} and Kampwirth, {R. T.} and Smith, {J. C.} and Richeson, {D. S.} and Marks, {T. J.} and Kang, {J. H.} and J. Talvacchio and M. Eddy",

note = "Funding Information: The authors thank Jeff Hettinger and Dick Klemm for discussions and Donglu Shi for the Bi-2212 single crystals. This work is partially Supported by the US Department of Energy, Division of Basic Energy Sciences-Materials Sciences, Conservation and Renewable Energy as part of a program to develop electric power technology, and the Superconductivity Pilot Center through the Division of Advanced Utility Concepts, under contract ~¢W-31-109-ENG-38 and the National Science Foundation (DMR 88-09854) through the Science and Technology Center for Superconductivity and the AFOSR. JCS acknowledges support from the Argonne Division of Educational Programs.",

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doi = "10.1016/0921-4534(91)90500-X",

language = "English (US)",

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T1 - Effect of Cu-O layer spacing on the magnetic field induced resistive broadening of high-temperature superconductors

AU - Kim, D. H.

AU - Gray, K. E.

AU - Kampwirth, R. T.

AU - Smith, J. C.

AU - Richeson, D. S.

AU - Marks, T. J.

AU - Kang, J. H.

AU - Talvacchio, J.

AU - Eddy, M.

N1 - Funding Information: The authors thank Jeff Hettinger and Dick Klemm for discussions and Donglu Shi for the Bi-2212 single crystals. This work is partially Supported by the US Department of Energy, Division of Basic Energy Sciences-Materials Sciences, Conservation and Renewable Energy as part of a program to develop electric power technology, and the Superconductivity Pilot Center through the Division of Advanced Utility Concepts, under contract ~¢W-31-109-ENG-38 and the National Science Foundation (DMR 88-09854) through the Science and Technology Center for Superconductivity and the AFOSR. JCS acknowledges support from the Argonne Division of Educational Programs.

PY - 1991/7/1

Y1 - 1991/7/1

N2 - For H{norm of matrix}c-axis, the magnetic field induced broadening of the resistive transitions of high-Tc superconductors (HTS) is shown to depend strongly on the Cu-O layer spacing. For the highly anisotropic HTS, we show experimental evidence that flux motion results from a thermally activated crossover from three dimensional (3D) vortex lines to 2D independent pancake-like vortices in the Cu-O layers, which is intrinsic to the material and occurs when kBT exceeds the Josephson coupling energy of these layers. At low temperatures, however, thermally activated conventional depinning (which can be sample dependent) or melting in the uncoupled 2D Cu-O layers is also required for flux motion. For YBa2Cu3O7, this dimensional crossover does not occur below Hc2, presumably because the conducting Cu-O chains short-circuit the Josephson interlayer coupling, leading to better superconducting properties in a magnetic field. These results show that strong interlayer coupling is a key to finding good alternatives.

AB - For H{norm of matrix}c-axis, the magnetic field induced broadening of the resistive transitions of high-Tc superconductors (HTS) is shown to depend strongly on the Cu-O layer spacing. For the highly anisotropic HTS, we show experimental evidence that flux motion results from a thermally activated crossover from three dimensional (3D) vortex lines to 2D independent pancake-like vortices in the Cu-O layers, which is intrinsic to the material and occurs when kBT exceeds the Josephson coupling energy of these layers. At low temperatures, however, thermally activated conventional depinning (which can be sample dependent) or melting in the uncoupled 2D Cu-O layers is also required for flux motion. For YBa2Cu3O7, this dimensional crossover does not occur below Hc2, presumably because the conducting Cu-O chains short-circuit the Josephson interlayer coupling, leading to better superconducting properties in a magnetic field. These results show that strong interlayer coupling is a key to finding good alternatives.

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JO - Physica C: Superconductivity and its Applications

JF - Physica C: Superconductivity and its Applications

IS - 4-6

ER -

Effect of Cu-O layer spacing on the magnetic field induced resistive broadening of high-temperature superconductors

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