Angular dependence of E-J characteristics under high magnetic fields in YBCO thin films

M. Inoue; T. Kiss; M. Kiuchi; M. Takeo; S. Awaji; K. Watanabe

doi:10.1016/S0921-4534(01)00250-7

Angular dependence of E-J characteristics under high magnetic fields in YBCO thin films

M. Inoue, T. Kiss, M. Kiuchi, M. Takeo, S. Awaji, K. Watanabe

Section of Measurement and Control Engineering

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

3 Citations (Scopus)

Abstract

Transport E-J characteristics in YBCO thin films have been studied as a function of temperature, T, magnetic field, B, and its angle, θ, under high magnetic fields up to 23 T. We carried out detailed measurements for the extended E-J characteristics at various T, B and θ. Analyzing the data within the framework of the percolation model, we extracted the factors related to the statistical distribution of critical current density, J_c. It is shown that if we assume that the scaling property and the angular dependencies of transition field, B_GL, hold down to 55 K, B_GL is estimated to be as high as 96 T in parallel field. The wide range measurements allow us to reveal the high potential of this material especially in high magnetic field region.

Original language	English
Pages (from-to)	273-276
Number of pages	4
Journal	Physica C: Superconductivity and its applications
Volume	357-360
DOIs	https://doi.org/10.1016/S0921-4534(01)00250-7
Publication status	Published - Aug 2001

All Science Journal Classification (ASJC) codes

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

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10.1016/S0921-4534(01)00250-7

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title = "Angular dependence of E-J characteristics under high magnetic fields in YBCO thin films",

abstract = "Transport E-J characteristics in YBCO thin films have been studied as a function of temperature, T, magnetic field, B, and its angle, θ, under high magnetic fields up to 23 T. We carried out detailed measurements for the extended E-J characteristics at various T, B and θ. Analyzing the data within the framework of the percolation model, we extracted the factors related to the statistical distribution of critical current density, Jc. It is shown that if we assume that the scaling property and the angular dependencies of transition field, BGL, hold down to 55 K, BGL is estimated to be as high as 96 T in parallel field. The wide range measurements allow us to reveal the high potential of this material especially in high magnetic field region.",

author = "M. Inoue and T. Kiss and M. Kiuchi and M. Takeo and S. Awaji and K. Watanabe",

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T1 - Angular dependence of E-J characteristics under high magnetic fields in YBCO thin films

AU - Inoue, M.

AU - Kiss, T.

AU - Kiuchi, M.

AU - Takeo, M.

AU - Awaji, S.

AU - Watanabe, K.

PY - 2001/8

Y1 - 2001/8

N2 - Transport E-J characteristics in YBCO thin films have been studied as a function of temperature, T, magnetic field, B, and its angle, θ, under high magnetic fields up to 23 T. We carried out detailed measurements for the extended E-J characteristics at various T, B and θ. Analyzing the data within the framework of the percolation model, we extracted the factors related to the statistical distribution of critical current density, Jc. It is shown that if we assume that the scaling property and the angular dependencies of transition field, BGL, hold down to 55 K, BGL is estimated to be as high as 96 T in parallel field. The wide range measurements allow us to reveal the high potential of this material especially in high magnetic field region.

AB - Transport E-J characteristics in YBCO thin films have been studied as a function of temperature, T, magnetic field, B, and its angle, θ, under high magnetic fields up to 23 T. We carried out detailed measurements for the extended E-J characteristics at various T, B and θ. Analyzing the data within the framework of the percolation model, we extracted the factors related to the statistical distribution of critical current density, Jc. It is shown that if we assume that the scaling property and the angular dependencies of transition field, BGL, hold down to 55 K, BGL is estimated to be as high as 96 T in parallel field. The wide range measurements allow us to reveal the high potential of this material especially in high magnetic field region.

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ER -

Angular dependence of E-J characteristics under high magnetic fields in YBCO thin films

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