Flux pinning force in bulk MgB2 with variable grain size

E Martinez; Pavlo Mikheenko; M Martinez-Lopez; Alexander Bevan; John Abell; A Millan

doi:10.1103/PhysRevB.75.134515

Flux pinning force in bulk MgB2 with variable grain size

E Martinez, Pavlo Mikheenko, M Martinez-Lopez, Alexander Bevan, John Abell, A Millan

Metallurgy and Materials

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128 Citations (Scopus)

Abstract

We report temperature and magnetic-field dependence of flux pinning force in bulk MgB2 with variable grain size. The samples are prepared by advanced methods, allowing minimizing effects of porosity, impurities, and inclusions of secondary phases. The effects of grain connectivity, flux-creep phenomena, and grain size on critical current density and flux pinning curves are analyzed. We have compared the field dependence of the pinning force for a range of samples with the predictions of theoretical models accounting for the effect of the grain size. There is qualitative agreement between grain-boundary pinning mechanism proposed by Hampshire and Jones [J. Phys. C 21, 419 (1987)] and the experimentally observed grain-size dependence of pinning force in bulk MgB2.

Original language	English
Pages (from-to)	134515-1-8
Journal	Physical Review B
Volume	75
Issue number	13
Early online date	1 Apr 2007
DOIs	https://doi.org/10.1103/PhysRevB.75.134515
Publication status	Published - 1 Apr 2007

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title = "Flux pinning force in bulk MgB2 with variable grain size",

abstract = "We report temperature and magnetic-field dependence of flux pinning force in bulk MgB2 with variable grain size. The samples are prepared by advanced methods, allowing minimizing effects of porosity, impurities, and inclusions of secondary phases. The effects of grain connectivity, flux-creep phenomena, and grain size on critical current density and flux pinning curves are analyzed. We have compared the field dependence of the pinning force for a range of samples with the predictions of theoretical models accounting for the effect of the grain size. There is qualitative agreement between grain-boundary pinning mechanism proposed by Hampshire and Jones [J. Phys. C 21, 419 (1987)] and the experimentally observed grain-size dependence of pinning force in bulk MgB2.",

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AU - Martinez, E

AU - Mikheenko, Pavlo

AU - Martinez-Lopez, M

AU - Bevan, Alexander

AU - Abell, John

AU - Millan, A

PY - 2007/4/1

Y1 - 2007/4/1

N2 - We report temperature and magnetic-field dependence of flux pinning force in bulk MgB2 with variable grain size. The samples are prepared by advanced methods, allowing minimizing effects of porosity, impurities, and inclusions of secondary phases. The effects of grain connectivity, flux-creep phenomena, and grain size on critical current density and flux pinning curves are analyzed. We have compared the field dependence of the pinning force for a range of samples with the predictions of theoretical models accounting for the effect of the grain size. There is qualitative agreement between grain-boundary pinning mechanism proposed by Hampshire and Jones [J. Phys. C 21, 419 (1987)] and the experimentally observed grain-size dependence of pinning force in bulk MgB2.

AB - We report temperature and magnetic-field dependence of flux pinning force in bulk MgB2 with variable grain size. The samples are prepared by advanced methods, allowing minimizing effects of porosity, impurities, and inclusions of secondary phases. The effects of grain connectivity, flux-creep phenomena, and grain size on critical current density and flux pinning curves are analyzed. We have compared the field dependence of the pinning force for a range of samples with the predictions of theoretical models accounting for the effect of the grain size. There is qualitative agreement between grain-boundary pinning mechanism proposed by Hampshire and Jones [J. Phys. C 21, 419 (1987)] and the experimentally observed grain-size dependence of pinning force in bulk MgB2.

U2 - 10.1103/PhysRevB.75.134515

DO - 10.1103/PhysRevB.75.134515

M3 - Article

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VL - 75

SP - 134515-1-8

JO - Physical Review B

JF - Physical Review B

IS - 13

ER -

Flux pinning force in bulk MgB2 with variable grain size

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