期刊
SUPERCONDUCTOR SCIENCE & TECHNOLOGY
卷 36, 期 9, 页码 -出版社
IOP Publishing Ltd
DOI: 10.1088/1361-6668/ace661
关键词
Fe-based superconductors; TAFF behavior; quenching treatment; critical current density
In this study, the influences of quenching treatment and cobalt-doping on the magnetic vortex dynamics of KCa2(Fe1-xCox)(4)As4F2 (x = 0, 0.1) single crystals were systematically investigated through electrical transport measurements. It was found that cobalt-doping with x = 0.1 can double the slopes of the upper critical field near T-c along both directions. The activation energy and critical current density J(c) were enhanced by the quenching treatment and could be suppressed by the introduction of cobalt-doping. Possible mechanisms for the evolutions of these important parameters were discussed. The results emphasize the important role of quenching treatment in enhancing the activation energy and critical current density in the 12442 system.
Owing to the unique double-FeAs-layered structure between neighboring insulating layers, the 12442-type Fe-based superconductors are expected to host rich vortex phenomena in the mixed state. Here, we report a systematic investigation on the influences of quenching treatment and cobalt-doping on the magnetic vortex dynamics of KCa2(Fe1-xCox)(4)As4F2 (x = 0, 0.1) single crystals via electrical transport measurements. It is found that the slopes of the upper critical field near T-c, d(mu 0)H/dT|(Tc) along both directions (H perpendicular to c and H parallel to c), are doubled by the cobalt-doping with x = 0.1. The activation energy is acquired by analyzing the Arrhenius plots, which shows a H-alpha dependence with a change in the exponent alpha at around 3 T, indicating the evolution of the dominant pinning mechanisms in different field regions. Importantly, the quenching treatment obviously enhances the magnitude of activation energy and critical current density J(c), which can be suppressed by the introduction of cobalt-doping. Possible mechanisms for such evolutions of these important parameters are discussed. Our results emphasize the important role of quenching treatment in enhancing the activation energy and critical current density in 12442 system.
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