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Control of the nanosized defect network in superconducting thin films by target grain size

Moe Moe Aye, Elmeri Rivasto, Mukarram Zaman Khan, Hannes Rijckaert, Esko Salojärvi, Christopher Haalisto, Ermei Mäkilä, Heikki Palonen, H. Huhtinen, Isabel Van Driessche, P. Paturi

2021Scientific Reports17 citationsDOIOpen Access PDF

Abstract

A nanograined YBCO target, where a great number of grain boundaries, pores etc. exist, is shown to hold an alternative approach to future pulsed laser deposition based high-temperature superconductor thin film and coated conductor technologies. Although the nanograined material is introduced earlier, in this work, we comprehensively demonstrate the modified ablation process, together with unconventional nucleation and growth mechanisms that produces dramatically enhanced flux pinning properties. The results can be generalized to other complex magnetic oxides, where an increased number of defects are needed for modifying their magnetic and electrical properties, thus improving their usability in the future technological challenges.

Topics & Concepts

NucleationMaterials sciencePulsed laser depositionConductorSuperconductivityFlux pinningGrain boundaryThin filmGrain sizeNanotechnologyLaser ablationDeposition (geology)Flux (metallurgy)Condensed matter physicsEngineering physicsHigh-temperature superconductivityLaserComposite materialMicrostructureMetallurgyChemistryPhysicsOpticsOrganic chemistrySedimentBiologyPaleontologyPhysics of Superconductivity and MagnetismDiamond and Carbon-based Materials ResearchZnO doping and properties
Control of the nanosized defect network in superconducting thin films by target grain size | Litcius