2017
DOI: 10.1088/1361-6668/aa80d1
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The role of the coherence length for the establishment of global phase coherence in arrays of ultra-thin superconducting nanowires

Abstract: We have fabricated 5 nm ultra-thin NbN nanowires that form a dense and regular array in the linear channels of mesoporous SBA-15 silica substrates. Bulk NbN is a well-known classical superconductor with Tc of 16 K. We show that, by being incorporated into this nanostructure, the composite material exhibits typical quasi-one-dimensional characteristics. We compare the superconducting properties with those of superconducting Pb nanowires of same dimensionality in identical configuration within the linear SBA-15 … Show more

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Cited by 7 publications
(9 citation statements)
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“…We Table 1, assuming that the coherence length is longer than the insulating separation width [15]. Although the onset c T of the NbN nanowires array is the largest, its low electron concentration is one of the main reasons that BKT T is as low as 0.007K, which agrees with recent experimental observations [21]. In contrast, the BKT T of Sn nanowires almost matches the experimentally observed c T value in networks of freestanding Sn nanowires [2].…”
Section: Resultssupporting
confidence: 82%
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“…We Table 1, assuming that the coherence length is longer than the insulating separation width [15]. Although the onset c T of the NbN nanowires array is the largest, its low electron concentration is one of the main reasons that BKT T is as low as 0.007K, which agrees with recent experimental observations [21]. In contrast, the BKT T of Sn nanowires almost matches the experimentally observed c T value in networks of freestanding Sn nanowires [2].…”
Section: Resultssupporting
confidence: 82%
“…The phase-slips along the nanowire cause a finite electrical resistance below Tc, although Cooper pairs are already well formed [20]. However, this limitation can be overcome by arranging the nanowires to form dense parallel arrays [1,5,7,21] or even random networks [2], which is also realized by superconducting atomic chains in some intrinsic quasi-1D superconductors including Sc3CoC4 [3] and Tl2Mo6Se6 [4]. In order to completely suppress the phase fluctuations and create a phasecoherent three-dimensional (3D) superconducting bulk state in the array, the superconducting order parameters in the individual 1D superconducting elements must undergo a macroscopic phase ordering transition that can only be triggered when there is a significant coupling.…”
Section: Introductionmentioning
confidence: 99%
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“…In thin films, the gap is also nonuniformly suppressed by the Altshuler-Aronov effect due to impurity scattering (25,34) as well as thickness variations (35), particularly relevant for Al (36), where recent experiments also reveal subgap states and charge localization across multiple grains (37). The clean, low-resistance NbN films that we chose to study in this work are characterized by a low carrier density (38). In such materials, it is very likely that the density of states (DOS) varies significantly, resulting in gap variations.…”
Section: Introductionmentioning
confidence: 99%
“…Furthermore, the pairing temperature obtained independently from the phase slip fitting lies consistently in the 5.9-6.1 K range, supporting our identification of T p ∼ 5.9 K as the pairing temperature in Tl 2 Mo 6 Se 6 . Our analysis leads us to a striking conclusion: despite its homogeneous monocrystalline nature, above T ons 3D , Tl 2 Mo 6 Se 6 experiences strong 1D fluctuations similar to a bundle of weakly-coupled superconducting nanowires [63][64][65][66] .…”
Section: Electrical Transportmentioning
confidence: 99%