Evaluation of isotopic boron (11B) for the fabrication of low activation Mg11B2 superconductor

Evaluation of isotopic boron (11B) for the fabrication of low activation Mg11B2 superconductor
채근화Hyunseock JieVladimir LuzinMukter ZamanAnvar Valiyaparambil AbdulsalamHyung-il ChoiVladimir LevchenkoArend NijhuisJung H. KimMislav Mustapi?Shi Xue DouYusuke YamauchiAslam KhanMd. Shahriar A. Hossain
boron isotope; critical current density; magnesium diboride; superconductors
Issue Date
Journal of the American Ceramic Society
VOL 103-5495
In this study, we analyze the properties of boron isotope (11B)-rich powders from three different sources, that is, American, Cambridge, and Pavezyum, to fabricate the bulk Mg11B2 superconductors and evaluate their superconducting properties. While11B-rich powder is an essential precursor to fabricate Mg11B2 superconductors for fusion magnet applications, the properties of the 11B powder turned out to be critical to determine the quality of the final superconducting product. Therefore, appropriate control of processing conditions is needed to comply with the requirements of the nuclear fusion application. Analysis of the B isotope ratio by accelerator mass spectroscopy and neutron transmission revealed that all three types of powder are enriched with 11B to better than 99 at % quality. In addition, Pavezyum's 11B shows the lowest crystallinity and smallest crystalline domain size as evidenced by the high-resolution X-ray diffractometer and scanning electron microscopy. The chemical states of the boron isotope investigated with near edge X-ray absorption fine structure spectroscopy and X-ray photoemission spectroscopy also reveals that Pavezyum boron has amorphous structure. Mg11B2 bulks and multi-filamentary (12-filament) wires have been manufactured, sintered at different temperatures and characterized via the transport critical current density. The wire with Pavezyum 11B shows three times higher current carrying capacity at a particular magnetic field compared to the wire using Cambridge 11B and hence, Pavezyum 11B boron has the potential for manufacturing fusion grade Mg11B2 based magnets. The results of this study demonstrated that Boron powders with higher purity, smaller grain size and lower crystallinity are critical for improving the superconducting and electronic properties of Mg11B2 samples fabricated from the powder. Thus, the low-neutron-activation Mg11B2 is possibly an affordable and technically viable
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