4.5 Article

In-situ measurements of the effect of radiation damage on the superconducting properties of coated conductors

Journal

SUPERCONDUCTOR SCIENCE & TECHNOLOGY
Volume 34, Issue 9, Pages -

Publisher

IOP PUBLISHING LTD
DOI: 10.1088/1361-6668/ac1523

Keywords

coated conductor; ion irradiation; transport current; cold irradiation

Funding

  1. Engineering and Physical Sciences Research Council [EP/N509711/1]

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An apparatus was constructed for irradiation and electrical testing of REBCO coated conductors below their critical temperature. The study observed the superconducting performance of samples before and after annealing, comparing irradiation at different temperatures to understand the effect on material properties. Results showed degradation of critical temperature and critical current density with irradiation dose, but significant recovery was seen after room temperature annealing, impacting the design of high temperature superconducting magnets for fusion reactors.
An apparatus has been built to perform irradiation and electrical testing of REBCO coated conductors (CC) held below their critical temperature (T (c)). Patterned tracks of Fujikura GdBCO CC were irradiated with 2 MeV He+ ions in steps up to 4 mdpa whilst held at 40 K, and the critical current density (J (c)) determined from I-V characteristics. These 'in-situ' samples then underwent annealing experiments at room temperature. The superconducting performance, both before and after room temperature annealing, has been compared to equivalent samples irradiated at room temperature and then cooled for testing at 40 K to understand how the damage tolerance of these materials is affected by sample temperature. Details of the apparatus and experimental results from preliminary work are presented and discussed. These preliminary results show that both T (c) and J (c) values of patterned tracks degrade with irradiation dose, with most samples showing similar behaviour. The room temperature annealing of 'in-situ' irradiated samples resulted in a significant recovery of properties. We conclude that irradiation temperature does alter how the superconducting properties of GdBCO CC are affected by ion irradiation, and that this observation has implications for the design of high temperature superconducting magnets for future fusion reactors.

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