Md Asaduzzaman, Ryan M L McFadden, Edward Thoeng, Robert E Laxdal and Tobias Junginger
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引用次数: 0
摘要
我们报告了在经过表面处理和涂层的铌样品中使用.NET技术测量的第一流穿透场。在镀膜样品[Nb3Sn( )/Nb]中,我们发现涡流穿透场与深度无关,其值为234.5(35) mT,与铌的瞬态过热场一致,并表明通量穿透存在表面能障。相反,在经过表面处理的样品[在真空中以 120 ∘ for 的温度焙烧铌]中,涡流穿透开始时接近纯铌的较低临界磁场,但随着植入深度的增加而增加,这与表面局部的磁通引化相一致。本文讨论了这些结果对超导铌技术应用(如超导射频空腔)的影响。
Measurements of the first-flux-penetration field in surface-treated and coated Nb: distinguishing between near-surface pinning and an interface energy barrier
We report measurements of the first-flux-penetration field in surface-treated and coated Nb samples using . Using thin Ag foils as energy moderators for the implanted muon spin-probes, we ‘profile’ the vortex penetration field at sub-surface depths on the order of m to m. In a coated sample [Nb3Sn( )/Nb], we find that is depth-independent with a value of 234.5(35) mT, consistent with Nb’s metastable superheating field and suggestive of surface energy barrier for flux penetration. Conversely, in a surface-treated sample [Nb baked in vacuum at 120 ∘ for ], vortex penetration onsets close to pure Nb’s lower critical field , but increases with increasing implantation depth, consistent with flux-pinning localized at the surface. The implication of these results for technical applications of superconducting Nb, such as superconducting radio frequency cavities, is discussed.
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