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Grain boundary characteristics of Fe-based superconductors

Kazumasa Iida, Jens Hänisch, Akiyasu Yamamoto

2020Superconductor Science and Technology48 citationsDOIOpen Access PDF

Abstract

Abstract Understanding the nature of grain boundary (GB) characteristics in combination with creating low-energy GBs by modifying the processing conditions, so-called GB engineering, is of great importance for controlling and reducing the defect density, leading to improved functionalities of polycrystalline metals and ceramics. For superconductors particularly, including both low- and high-temperature superconductors, GB engineering has been developed to improve especially the critical current densities, J c , across these GBs. The intrinsic physical properties of a given superconductor such as the coherence length, the order parameter symmetry, and their anisotropies would determine the strategy of GB engineering. In this topical review, we present an overview of the GB characteristics and GB engineering of Fe-based superconductors (FBS) in the form of polycrystalline bulks and wires, and thin films with application potential, e.g. for high-field magnet wires. Prior to the FBS, GB engineering of the cuprates and MgB 2 are also briefly covered.

Topics & Concepts

Grain boundarySuperconductivityCondensed matter physicsCrystalliteMaterials scienceCoherence lengthCuprateAnisotropyHigh-temperature superconductivityMagnetEngineering physicsCritical currentSuperconducting coherence lengthSuperconducting magnetCoherence (philosophical gambling strategy)Boundary (topology)Thin filmGrain sizeContext (archaeology)Order (exchange)Superconductivity in MgB2 and AlloysPhysics of Superconductivity and MagnetismIron-based superconductors research
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