2007
DOI: 10.1103/physrevlett.99.147003
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Pinning-Induced Formation of Vortex Clusters and Giant Vortices in Mesoscopic Superconducting Disks

Abstract: Multi-quanta, or giant, vortices (GVs) are known to appear in very small superconductors near the superconducting transition due to strong confinement of magnetic flux. Here we present evidence for a new, pinning-related, mechanism for the formation of GVs. Using Bitter decoration to visualise vortices in small Nb disks, we show that confinement in combination with strong disorder causes individual vortices to merge into clusters or even GVs well below T c and H c2 , in contrast to well-defined shells of indi… Show more

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Cited by 83 publications
(88 citation statements)
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“…Comparing the spectrum (29) with the branches obtained from the direct numerical analysis of the eigenvalue problem (11), (31) one can see that the perturbation method provides a reasonable description of the energy spectrum behavior in a wide range of the impact parameters. As one would expect, the perturbation procedure fails for small impact parameters | b | ≪ R. Contrary to the CdGM case the spectrum branch (29) does not cross the Fermi level, and the minigap in the quasiparticle spectrum ∆ min = ε(R) grows with the increase in the cylinder radius R (see Fig.…”
Section: B Solution For Large Impact Parameters |B| > Rmentioning
confidence: 94%
“…Comparing the spectrum (29) with the branches obtained from the direct numerical analysis of the eigenvalue problem (11), (31) one can see that the perturbation method provides a reasonable description of the energy spectrum behavior in a wide range of the impact parameters. As one would expect, the perturbation procedure fails for small impact parameters | b | ≪ R. Contrary to the CdGM case the spectrum branch (29) does not cross the Fermi level, and the minigap in the quasiparticle spectrum ∆ min = ε(R) grows with the increase in the cylinder radius R (see Fig.…”
Section: B Solution For Large Impact Parameters |B| > Rmentioning
confidence: 94%
“…However, MQVs are of interest since under certain circumstances, the interaction between vortices is not purely repulsive and can support multi-vortex bound states, at least as metastable defects. This can happen, for instance, in type-II mesoscopic superconductors, where MQVs have been predicted [15] and experimentally observed [16][17][18][19]. In addition, it has been argued that MQVs are expected to be energetically stable in multicomponent superconductors [20,21] and in chiral p-wave superconductors [22,23].…”
mentioning
confidence: 95%
“…Here we present the first study on vortex pinning in hyperbolic 2D tesselations. In mesoscopic superconductors, the geometry of a sample and/or its underlying pinning has a strong impact on its vortex pattern; for example, the appearance of vortex concentric "shells" [9][10][11] in mesoscopic disks, which can even merge into so-called giant vortices 12 in very small disks. In symmetric polygons, e.g., triangles and squares, vortices tend to form patterns with the symmetry of the polygon boundary.…”
Section: Introductionmentioning
confidence: 99%