Effects of neutron irradiation on carbon doped MgB2 wire segments
Date
2006-04-26
Authors
Wilke, R. H. T.
Bud'ko, Sergey L.
Finnemore, D. K.
Suplinskas, Raymond J.
Farmer, J.
Hannahs, S. T.
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IOP Publishing Ltd
Abstract
We have studied the evolution of superconducting and normal state properties of neutron irradiated Mg(B0.962C0.038)2 wire segments as a function of post-exposure annealing time and temperature. The initial fluence fully suppressed superconductivity and resulted in an anisotropic expansion of the unit cell. Superconductivity was restored by post-exposure annealing. The upper critical field, Hc2(T = 0), approximately scales with Tc, starting with an undamaged Tc near 37 K and Hc2(T = 0) near 32 T. Up to an annealing temperature of 400 °C the recovery of Tc tends to coincide with a decrease in the normal state resistivity and a systematic recovery of the lattice parameters. Above 400 °C a decrease in ordering along the c-direction coincides with an increase in resistivity, but no apparent change in the evolution of Tc and Hc2. To a first order approximation, it appears that carbon doping and neutron damage affect the superconducting properties of MgB2 independently.
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This is the version of the article before peer review or editing, as submitted by an author to Superconductor Science and Technology. IOP Publishing Ltd is not responsible for any errors or omissions in this version of the manuscript or any version derived from it. The Version of Record is available online at DOI: 10.1088/0953-2048/19/6/024. Copyright 2006 IOP Publishing Ltd. Posted with permission.