Formation of High-Field Pinning Centers in Superconducting MgB2 Wires by Using High Hot Isostatic Pressure Process

This paper demonstrates the effects of hot isostatic pressure (HIP) on the structure and transport critical parameters of in situ MgB 2 wires without a barrier. Our results show that only HIP and nano-boron allow the formation of more high-field pinning centers, which lead to the increase in critica...

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Published in	Journal of superconductivity and novel magnetism Vol. 30; no. 12; pp. 3397 - 3402
Main Authors	Gajda, D., Morawski, A., Zaleski, A. J., Akdoğan, M., Yetiş, H., Karaboğa, F., Cetner, T., Belenli, İ.
Format	Journal Article
Language	English
Published	New York Springer US 01.12.2017
Subjects	Characterization and Evaluation of Materials Condensed Matter Physics Magnetic Materials Magnetism Original Paper Physics Physics and Astronomy Strongly Correlated Systems Superconductivity Critical current density High fields pinning centers MgB2 wires
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Abstract	This paper demonstrates the effects of hot isostatic pressure (HIP) on the structure and transport critical parameters of in situ MgB 2 wires without a barrier. Our results show that only HIP and nano-boron allow the formation of more high-field pinning centers, which lead to the increase in critical current density ( J c ) at high applied magnetic fields. Nano-boron and annealing at a low pressure increase the J c in the low magnetic field. This indicates that nano-particles create more high-field pinning centers. In addition, the results show that nano-boron improves the connection between the grains. Scanning electron microscope results show that HIP increases the reaction rate between Mg and B, density, and homogeneity of the MgB 2 material. Additionally, HIP allows to create a structure with small grains and voids and eliminates the significance of the number of voids. High isostatic pressure allows to obtain high J c of 10 A/mm 2 (at 4.2 K) in 10 T and increases irreversible magnetic field ( B irr ) and upper critical field ( B c2 ). Measurements show that these wires have high critical temperature of 37 K.
AbstractList	This paper demonstrates the effects of hot isostatic pressure (HIP) on the structure and transport critical parameters of in situ MgB 2 wires without a barrier. Our results show that only HIP and nano-boron allow the formation of more high-field pinning centers, which lead to the increase in critical current density ( J c ) at high applied magnetic fields. Nano-boron and annealing at a low pressure increase the J c in the low magnetic field. This indicates that nano-particles create more high-field pinning centers. In addition, the results show that nano-boron improves the connection between the grains. Scanning electron microscope results show that HIP increases the reaction rate between Mg and B, density, and homogeneity of the MgB 2 material. Additionally, HIP allows to create a structure with small grains and voids and eliminates the significance of the number of voids. High isostatic pressure allows to obtain high J c of 10 A/mm 2 (at 4.2 K) in 10 T and increases irreversible magnetic field ( B irr ) and upper critical field ( B c2 ). Measurements show that these wires have high critical temperature of 37 K.
Author	Cetner, T. Zaleski, A. J. Karaboğa, F. Morawski, A. Gajda, D. Akdoğan, M. Belenli, İ. Yetiş, H.
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Snippet	This paper demonstrates the effects of hot isostatic pressure (HIP) on the structure and transport critical parameters of in situ MgB 2 wires without a...
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SubjectTerms	Characterization and Evaluation of Materials Condensed Matter Physics Magnetic Materials Magnetism Original Paper Physics Physics and Astronomy Strongly Correlated Systems Superconductivity
Title	Formation of High-Field Pinning Centers in Superconducting MgB2 Wires by Using High Hot Isostatic Pressure Process
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